World Index of BioMolecular Visualization Resources

Biochemical Structure Tutorials

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Bergmann, Rolf   (www.biologie.uni-hamburg.de )  
Highlights of biochemistry: molecular structures made visible. (English or German)(antibiotics;   chloramphenicol acetyl transferase;   concanavalin a;   integration host factor;   luciferase;   lysozyme;   nitrite reductase;   proteasome;   ribulose-1,5-bisphosphate carboxylase;   rubisco;   tobacco mosaic virus;   TATA box binding protein;   diphtheria toxin;   hemolysin;   cholera toxin;   colicin;   transport;   porin;   diffusion;   ion channel;   diabetes;   jasmonic acid;   hyperforin;   Saint John's wort;   sildenafil;   fosmidomycin;   malaria;   toxoplasmosis;   herbicide;   IPA;   Alzheimer's;   bacterial photosynthesis;   light harvesting complex;   photosynthetic reaction center;   Johanniskraut;   glutamate receptor;   actinomycin;   archaeal rhodopsins;   hydroxylamine oxidoreductase)
Interactive Chime scripts on selected topics of biochemistry - enzyme structures with special features up to reaction pathways.
Biochemie zum Ansehen: molekulare Strukturen vom Atom zum Makromolekuel:Interaktive Chime Skripte zu biochemischen Themen - von Enzymstrukturen mit Besonderheiten zu Reaktionswegen.
Submitted by: the author.  (Entry 52).
 
Biochemistry and Molecular Biology, American Society of   (www.biomoleculesalive.org )  
BioMoleculesAlive.Org (ASBMB;   curriculum resources for biochemistry)
Features free, downloadable, peer-reviewed educational resources including Software, Visual Resources, Curriculum Resources, Articles and Reviews for Biochemistry and Molecular Biology Education. Site users can submit new resources subject to peer review. Sponsored by the American Society of Biochemistry and Molecular Biology.
Submitted by: Martz, Eric.  (Entry 155).
 
Boon, Elizabeth   (www.clunet.edu )  
Catalase (at The Online Macromolecular Museum) (oxidoreductase;   hydrogen peroxide)
Catalase, present in the peroxisomes of nearly all aerobic cells, serves to protect the cell from the toxic effects of hydrogen peroxide by catalyzing its decomposition into molecular oxygen and water without the production of free radicals. This Chime-based exhibit explores structure-function relationships of this important oxidoreductase.
Co-authors: Downs, Aaron;   Marcey, David.   Submitted by: Marcey, David.  (Entry 97).

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Bragin, Victoria (Vicki)   (www.paccd.cc.ca.us )  
Web-Based Chemical Investigations (organic chemistry;   Valence-Shell Electron-Pair Repulsion Theory (VSEPR);   cycloalkanes;   isomerism, constitutional;   stereoisomerism;   lesson plans)
Interactive tutorials in general and organic chemistry and biochemistry using Chime. Modules include
  • Molecular Geometry and the Valence-Shell Electron-Pair Repulsion Theory
  • Cycloalkanes: A Structural Study
  • Constitutional Isomerism
  • Stereoisomerism
Biochemistry modules are listed individually under Bragin in the author index. These tutorials use a discovery-based approach to learning concepts.
Submitted by: Bragin, Victoria.  (Entry 61).
 
Introduction to Protein Structure, Part I (structure, protein, primary, secondary;   polypeptide;   sidechain;   peptide bond;   alpha-helix;   ribbon;   beta pleats;   primary structure;   secondary structure;   tertiary structure;   quaternary structure;   hemoglobin;   myoglobin)
A custom Web-based application which uses a discovery-based approach to examining protein structure. In part I, primary and secondary structures are introduced by analyzing simple polypeptides. This forms the springboard for the analysis of more complex proteins. Visualization employs Chime.
Submitted by: the author.  (Entry 62).
 
The 20 common amino acids (amino acids and properties)
Each amino acid is displayed (with hydrogens) in Chime in a table including names, structural formulae of both the ionized and nonionized forms, isoelectric points and pK values.
Submitted by: Bragin, Victoria.  (Entry 63).

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Bruist, Michael   (tonga.usip.edu )  
B-Form Deoxyribonucleic Acid (DNA) (deoxyribonucleic acid, DNA, major groove, minor groove)
This Chime resource contains animations to illustrate the structure of DNA. The animations are initiated by clicking buttons on the right pannel. They show a base pair in the context of a larger helix and highlight the bases, sugars and phosphates. You can see how the helix is created by observing the structure of a two and three base pair helix. The last animation emphasizes how the major and minor grooves are created. The DNA coordinates were generated by Sybyl using idealized coordinates for B-DNA.
Submitted by: the author.  (Entry 85).
 
DNA Polymerase I from Thermus aquaticus (DNA polymerase;   primer;   template;   polymerization mechanism;   exonuclease;   DNA substrate;   DNA polymerase tutorial;   SN1 reaction;   lesson plan)
This chime window presents students with DNA polymerase in the act of adding a nucleotide to a primer. Both the polymerization domain and 3' to 5' exonuclease are depicted. The template and primer strands along with the incoming nucleotide can be viewed in various modes. There is a zoom into the active site enabling one to clearly see how an SN1 reaction will add the nucleotide to the primer DNA strand. The window functions as a tutorial in which several questions are posed, with answers available with a click. The coordinates have been modified so that actual substrates rather than inhibitors are seen on the enzyme.
Submitted by: the author.  (Entry 136).
 
The Zinc Finger: A Protein Domain that Binds Specific DNA Sequences (DNA binding protein;   zinc finger;   zif268;   protein secondary structure;   lesson plans)
A zinc finger-DNA complex is used to introduce protein structure. Initially, a single finger (without DNA) is viewed. It consists of a beta hairpin and an alpha helix. Various parts of this structure can be viewed separately. The students are asked a few simple questions regarding the structure. Answers are available with a click.

Then, a three-figer structure and the DNA it binds is viewed. Again different parts of the complex can be selected. A few questions are asked of the structure. Answers are provided.

Submitted by: the author.  (Entry 137).
 
Exploring Glyceraldehyde-3-phosphate dehydrogenase (glyceraldehyde-3-phosphate dehydrogenase;   NAD+ binding;   glyceraldehyde-phosphate binding;   quaternary structure)
This page explores the heirarchy of protein structure. Glyceraldehyde-3-phosphate dehydrogenase is a homotetramer. The arrangement of the four subunits is observed. An animation goes from the space-filling tetramer to a single subunit, which is then converted to a ribbon cartoon. It is seen that each domain binds one substrate. The secondary features that comprise the NAD+ binding domain are presented. These can be isolated or seen in contect of the full domain. Side chains can be toggled on and off.
Submitted by: the author.  (Entry 138).
 
Magnesium Adenosine Triphosphate (MgATP) Binding to an Enzyme (dethiobiotin synthetase;   Mg-ATP binding;   substrate binding;   hydrogen bonding;   hydrophobic interactions;   salt-briges)
This page illustrates how an enzyme binds specifically to a substrate using dethiobiotin synthetase from E. coli. The initial space-filling view shows ATP buried on the surface of an enzyme. An animation then zooms into the active site as all protein residues not binding ATP are removed. The hydrophobic interactions, hydrgen bonding, and ionic interactions can be color coded. Monitors (lines) indicating hydrogen bonds and salt bridges can be toggled on and off. A simple rigid body animation shows how ATP might move into this site from solution.
Submitted by: the author.  (Entry 139).
 
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Cachau, Raul E.   (www.umass.edu )  
Thermal motion of alpha helix (XYZ format animation;   animation with XYZ files)
Molecular dynamics simulation of thermal motion of a 12-residue polyalanine right-handed helix unfolding. This illustrates Chime's ability to display animations using XYZ-format atomic coordinate files. Note that unlike PDB files, XYZ files lack information about residue names or atom positions within residues (e.g. alpha carbon). Hence for proteins, NMR-format PDB files are preferable (see the Morpher).
Submitted by: Martz, Eric.  (Entry 53).
 
Caras, James   (www.harcourtcollege.com )  
Garrett and Grisham Interactive Biochemistry Structure Tutorials (nucleic acids;   albumin, serum;   myoglobin;   MHC class I;   secondary structure)
These structure tutorials support the Garrett and Grisham textbook, and require the Chime plug-in. Students can learn how to use Chime, and see tutorials on nucleic acids, serum albumin, myoglobin, the class I major histocompatibility complex (MHC I), and the alpha-helix.
Submitted by: the author.  (Entry 83).
 
Carney, Jessica   (www.clunet.edu )  
MutH (at The Online Macromolecular Museum) (mismatch repair;   DNA repair;   DNA methylation;   MutH;   MutS;   MutL;   endonuclease MutH;   restiction enzyme, homolog MutH)
The MutH protein of Escherichia coli, a weak endonuclease, is one enzyme of a multimeric complex that works to repair DNA base mismatches (with the exception of C-C pairs) and small insertion or deletion mismatches in strands differing in up to four nucleotides. This Chime-based exhibit explores the structure/function relationships of this DNA repair protein.
Co-authors: Silva, Nathan;   Marcey, David.   Submitted by: Marcey, David.  (Entry 126).

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Carroll, Carla   (www.clunet.edu )  
Nitrogen Regulatory Protein C (at The Online Macromolecular Museum) (transcription factor;   nitrogen metabolism;   phosphorylation, protein;   NtrC)
Nitrogen Regulatory Protein C (NtrC) is a positively acting bacterial transcription factor that is involved in regulating the metabolism of nitrogen. This exhibit explores the structure-function relationships of the N-terminal receiver domain of NtrC. Special attention is paid to the conformational changes of the receiver domain induced by phosphorylation.
Co-authors: Marcey, David.   Submitted by: Marcey, David.  (Entry 113).
 
Chem406 Class, Fall 1999, U Wisc-Eau Claire   (www.chem.uwec.edu )  
Student Webpapers: The Structure-Function Relationships for the Enzymes in the Glycolytic and Lactate Fermentation Pathways. (glycolysis;   gluconeogenesis;   lactate fermentation;   Classroom use of Chime;   lesson plan)
Students taking Chem406 at the University of Wisconsin-Eau Claire are required to write a Web termpaper (Webpaper) that reviews the structure-function relationships of a protein. Chem406 is a biophysical chemistry course that is required of undergraduate students majoring in Biochemistry/Molecular Biology. For the Fall 1999 semester the students were assigned enzymes from the glycolytic, gluconeogenesis, and lactate fermentation pathways. The students were required to use Chime images to illustrate their papers and to use JavaScript buttons to modify these images in context with the narrative of their paper. We have found Web page authoring with Chimes to be a powerful tool for teaching students about the structure/function relationships of proteins. The homepage for this site contains two links: one to the detailed assignment that was given to the students, the other to a figure showing the metabolic pathways involved. Each enzyme named in this figure provides a link to a student Webpaper. These are student-authored reports, unedited by faculty, consequently the quality and accuracy does vary. All together there are 12 Webpapers with a average of three Chimes per Webpaper. The specific enzymes covered include:
  • Hexokinase (E.C.2.7.1.1)
  • Glucose 6-Phosphate Isomerase (E.C.5.3.1.9)
  • Phosphofructokinase (E.C.2.7.1.11)
  • Fructose 1,6-Bisphosphate Aldolase (E.C. 4.1.2.13)
  • Triosephosphate Isomerase (E.C. 5.3.1.1)
  • Glyceraldehyde 3-Phosphate Dehydrogenase (E.C. 1.2.1.12)
  • 3-Phosphoglycerate Kinase (E.C. 2.7.2.3)
  • 3-Phosphoglycerate Mutase (E.C. 5.4.2.1)
  • 2-Phosphoglycerate Hydrolase (Enolase) (E.C. 4.2.1.11)
  • Pyruvate Kinase (E.C. 2.7.1.40)
  • Fructose 1,6-Bisphosphatase (E.C. 3.1.3.11)
  • Lactate Dehydrogenase (E.C. 1.1.1.27)
Submitted by: Gallagher, Warren.  (Entry 57).
 
Cox, Ricky   (campus.murraystate.edu )  
Noncovalent Interactions in Proteins (noncovalent interactions in proteins;   ligand-protein complexes;   pi-orbital interactions;   cation-pi interactions;   aromatic sidechains: face-to-face, side-to-face, face-to-cation;   salt bridges)
A Chime-based web page dedicated to the importance and prevalence of pi-type interactions in proteins and protein-ligand complexes. Specific noncovalent interactions are shown that stabilize the structure of protein systems. A special emphasis has been placed on pi-type interactions such as cation-pi interactions between aromatic and basic amino-acid side chains and face-to-face and face-to-edge interactions between two aromatic side chains. All the interactions shown were found by biochemistry students who participated in molecular visualization class projects.
Submitted by: the author.  (Entry 45).

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Craig, Paul   (bioeditor.sdsc.edu )  
Zinc Binuclear Clusters (transcription activator;   zinc finger;   BioEditor)
Zinc binuclear clusters are motifs found in transcriptional regulatory proteins in fungi. An early zinc binuclear cluster was originally thought to be similar to previously described zinc fingers, with four cysteines forming a tetrahedral zinc binding site. Subsequent structural studies strated that the zinc binuclear cluster consists of 6 cysteine residues that are bound to two zinc atoms. This documentary includes text, images, sequence and structural data and molecular visualizations to describe representative members of this family. It is presented in the BioEditor software package.
Submitted by: the author.  (Entry 151).
   
Dallakyan, Sargis   (mgltools.scripps.edu )  
Molecular Electrostatics with PMV (Molecular Electrostatics;   Poisson Boltzmann;   APBS)
potential Covers Computation and Visualization of Electrostatic Potential in PMV.
  1. Quickstart Describes minimal steps needed to run APBS and visualize the results.
  2. Potential Isocontours Explains how to display isocontours of an electrostatic potential.
  3. APBS Setup widget How-to change parameters.
  4. Add-on Creating animated images for presentation or Web pages.
Co-authors: Huey, Ruth;   Sanner, Michel.   Submitted by: the author.  (Entry 168).
 
Decatur, Wayne   (www-unix.oit.umass.edu )  
Large Ribosomal Subunit Tour for Specialists (ribosome, large subunit for specialists;   RNA, ribosomal;   rRNA;   translation;   ribozyme)
An extensive, Chime-based tour of the Archaeal Large Ribosomal Subunit for specialists. The full tour requires Netscape Communicator (Navigator) 4.5-4.7 but there is a sample tour that covers the key features that works with Chime in other browsers on computers running Microsoft Windows. The full tour interface has been designed with the issues that the large coordinate data files entail in mind. Be aware that you need a good connection to the internet for this to work and not be frustrating. Several of the structure files used in the tour are in excess of 1 Mb.
Submitted by: the author.  (Entry 82).
 
Ribosome Tour (RNA, ribosomal;   translation;   peptide bond synthesis;   tRNA;   mRNA;   30S ribosomal subunit;   70S Ribosome architecture;   50S ribosomal subunit)
An introductory tour of the ribosome suitable for high school or college general biology classes. Includes the two RNA subunits, numerous proteins, 3 transfer RNAs, and messenger RNA. Based on the first structure for the complete ribosome, reported in May, 2001, by Noller and coworkers. Requires CHIME plug-in. The presentation is actually in Protein Explorer, and therefore makes exploration beyond the defined views easy.
Submitted by: the author.  (Entry 120).
 
Large Ribosomal Subunit Tour (ribosome, large subunit;   translation;   ribozyme;   rRNA;   peptide bond synthesis;   RNA, ribosomal;   50S ribosomal subunit)
A Chime-based tour of the large ribosomal subunit suitable for college-level classes. Highlights the key features of the large subunit such as the site of peptide bond synthesis and the polypeptide exit tunnel. Demonstrates how the ribosome seems to be a ribozyme and shows one theory on how the chemistry works. Based on the structure of the Archaeal large ribosomal subunit reported in 2000 by Steitz, Moore, and coworkers.
Submitted by: the author.  (Entry 121).
 
RNA Silencing Suppression by a Plant Viral Protein: Structural Basis (RNA;   p19;   plant;   viruses;   sirna;   rna silencing;   rna interference;   RNAi;   carnation italian ringspot virus;   tombusviruses;   ring spot virus;   suppressor;   mirna;   tomato bushy stunt virus)
This is a Presentation in Protein Explorer, that at the present time relies on the Chime plugin. It explores the structure of plant virus RNA silencing suppressor protein, p19, bound to a small double-stranded silencing RNA, or siRNA. Especially nice is that this presentation is fully integrated into Protein Explorer, thanks to Eric Martz's template, and so you can go to easily explore other structure aspects via the power of Protein Explorer and return to the presentation seamlessly.
Submitted by: the author.  (Entry 163).

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Douglass, Ben   (www.clunet.edu )  
HhaI DNA Methyltransferase (at The Online Macromolecular Museum) (DNA methylation;   methyltransferases;   DNA binding;   DNA modification)
Methyltransferases are employed in restriction-modification and mismatch repair systems in prokaryotes, and have been implicated in many molecular processes in eukaryotes including regulation of gene expression, genomic imprinting, DNA repair, mutagenesis, and chromatin organization. HhaI DNA methyltransferase is a prokaryotic m5c-methyltransferase that recognizes the 5'-GCGC-3' sequence in double stranded DNA and methylates the first cysteine of the recognition sequence. This Chime-based exhibit explores the structure-function relationships of HhaI.
Co-authors: Downs, Aaron;   Marcey, David.   Submitted by: Marcey, David.  (Entry 106).
 
Driscoll, Timothy   (www.worthpublishers.com )  
Protein Architecture at Biochemistry in 3D (amino acids;   peptide bond;   secondary structure;   tertiary structure;   supersecondary motifs;   domains, protein;   quaternary structure;   Lehninger's Principles of Biochemistry)
Chime-based tutorial including amino acids (stereochemistry, sidechains and categories, proline vs. structure), peptide bond, sequence, secondary structure (phi/psi angles, alpha helices, beta sheets, turns), hydrogen bonds, tertiary structure (fibrous proteins - kinesin, collagen, silk fibroin), small globular proteins (myoglobin, lysozyme), supersecondary motifs, domains, SCOP, examples of alpha, beta, alpha/beta (mixed or segregated), quaternary structure (hemoglobin, poliovirus, tobacco mosaic virus, binding interfaces). References to figures in Lehninger's Principles of Biochemistry (Lehninger, Nelson & Cox), 3rd edition. Implementation includes color keys, extensive help, and busy/idle status indicators.
Co-authors: Reichsman, Frieda.   Submitted by: the author.  (Entry 1).
 
Lac Repressor: Biochemistry in 3D (transcription;   lac repressor;   lacR;   transcriptional regulation;   gene regulation in bacteria)
An in-depth investigation into the function of this classic bacterial gene regulator. Includes animations showing the binding of lacR to DNA operators, core dimer and tetramer interactions, and structural effects of inducer binding. follow the allosteric effects of inducer binding as they propagate through the core to the headpiece, and affect the interaction between lacR and its operator sites. One of several detailed Chime structure-function tutorials that accompany Lehninger Principles of Biochemistry. All of these tutorials require Chime and Netscape Communicator 4.5-4.79, and use actual structure files from various sources. all tutorials are extensively annotated with text and citations, and offer powerful, user-friendly controls to supplement the Chime animations.
Submitted by: the author.  (Entry 141).
 
GFP (Green Fluorescent Protein) (GFP;   Aequoria victoria;   beta barrel;   fluorescence;   chromophore;   green fluorescent protein)
structural biology and reaction chemistry of the green fluorescent protein (GFP). uses Chime, gifs, and text in combination. supports use of Chime 1.x or higher. originally designed as a lecture aid, but can be used as a self-guided tutorial as well.
Submitted by: the author.  (Entry 145).
 
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Engen, John R   (www.embl-heidelberg.de )  
Explore the c-Src tyrosine kinase (tyrosine kinase;   kinase, tyrosine;   src-family)
A chime-based, tutorial page of the structure of the tyrosine kinase c-Src. Buttons allow the user to selectively highlight important domains and residues critical for regulation of Src and its family members. A link in the page takes you to more information about c-Src, its properties, and regulation.
Co-authors: Superti-Furga, Giulio.   Submitted by: the author.  (Entry 46).
   
Flammer, Kristin   (www.clunet.edu )  
Porin Proteins (at The Online Macromolecular Museum) (OMPF;   Maltoporin;   LamB Porin;   Porins;   lambda receptor)
The porin superfamily contains a number of homotrimeric, transmembrane proteins that form water-filled pores across the outer cell membranes of gram-negative bacteria. Porins allow bacterial cells to interact with their environment through the passive diffusion of small, hydrophillic solutes across bacterial membranes. OMPF (outer membrane protein f) is among the most general E. coli porins. Maltoporin, also known as the LamB porin, is among the best studied examples of the substrate-specific porins. It is responsible for the guided diffusion of maltose and maltodextrins. Maltoporin is also one of the many porins that contains a bacteriophage recognition sequence. It was identified as the E. coli receptor for phage lambda before its role in the translocation of sugar was discovered. This Chime-based exhibit explores the structure-function relationships of OMPF and Maltoporin.
Co-authors: Downs, Aaron;   Marcey, David.   Submitted by: Marcey, David.  (Entry 99).
 
Fries, David   (www.clunet.edu )  
DNA Polymerase Beta (at The Online Macromolecular Museum) (polB;   polymerase, DNA)
DNA polymerase Beta (pol B) is a eukaryotic DNA polymerase studied most extensively in vertebrate systems. Like other DNA polymerases, pol B is responsible for adding new nucleotides to a growing chain by catalyzing a nucleotidyl transfer reaction. This Chime-based exhibit explores structural aspects of Pol B catalysis, DNA binding, processivity, and fidelity.
Co-authors: Marcey, David.   Submitted by: Marcey, David.  (Entry 110).
 
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Garrett, R. H.   (www.harcourtcollege.com )  
Garrett & Grisham Interactive Biochemistry (albumin;   secondary structure;   myoglobin;   major histocompatibility class I;   nucleic acids)
The support site for Garrett & Grisham's Biochemistry text, including Chime-based tutorials on the topics listed above.
Co-authors: Grisham, C. M..   Submitted by: Martz, Eric.  (Entry 129).
 
Gasser, Charles   (www.mcb.ucdavis.edu )  
Molecules and Structures Homepage (amino acid;   disulfide bond;   nucleosome;   TATA-binding protein;   transcription factor;   Glucocorticoid receptor;   GCN4;   Engrailed;   Gal4;   Lambda Repressor;   TFIIIA;   MAD;   MyoD;   Zif;   NFAT;   Fos;   Jun;   NFKappaB;   Serum Response Factor (SRF);   MADS box;   SP1)
Lead-in page to structures of amino acids in Chime format, Chymotrypsin tutorial in chime format, and set of pages showing a varitey of regulatory transcription factors and TATA-binding protein in Chime format with buttons for different views. Compare structures of B- and X-DNA.
Submitted by: the author.  (Entry 127).
 
Gibson, Andrew   (www.bi.umist.ac.uk )  
Protein/DNA interactions (434 repressor;   trp repressor;   Met J repressor;   zinc fingers;   leucine zippers;   EcoRI)
This web resource uses Chime to illustrate one of the final year modules of a biochemistry course covering Protein/DNA interactions. The pages have been written with education in mind, and there is also a "Chime Trainer Page" developed alongside the web pages designed to train students in the use of Chime. The user interface incorporates buttons within frames to create a walkthrough tutorial effect for each of the specific DNA/Protein interactions that are covered.From the initial page the chime resources can be found by navigating through the links to lectures with Chime tutorials, and then scrolling to the bottom of these pages where a button to open the chime tutorial can be found.
Co-authors: Sims, P. F. G..   Submitted by: the author.  (Entry 58).

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Gille, Christoph   (www.charite.de )  
Structural Alignment Program for Proteins (alignment;   protein superposition;   pymol;   jmol;   rasmol;   vmd;   mutations;   residue annotation;   java;   multiple structure alignment)
STRAP is an interactive editor for multiple sequence alignments of proteins. Several tutorials and wizards on the following topics are integrated in STRAP:
  1. mapping of mutations and polymorphisms onto three-dimensional protein structures
  2. multiple structure alignments
  3. BLAST searches
  4. evolutionary dendrograms
  5. multiple sequence alignments of sequences with little similarity
These tutorials are the basis for training courses which are offered for students of biophysics, biochemistry and biology at the Humboldt University Berlin
Submitted by: the author.  (Entry 158).
 
Glaser, Fabian   (consurf.tau.ac.il )  
ConSurf Server for the Identification of Functional Regions in Proteins by Surface Mapping of Phylogenetic Information (mutation;   evolution;   conservation;   multiple sequence alignment coloring of a protein;   hypervariable residues)
ConSurf identifies, in Chime (actually, in Protein Explorer) the most highly conserved residues, and the hypervariable residues, based on a multiple sequence alignment and phylogenetic tree. It works on any protein for which a 3D structure is available. ConSurf is completely automatic. All you have to provide is the PDB code for a 3D structure, and specify which chain to work on. Optionally, you can provide your own multiple sequence alignment. Image at left: enolase (4enl) -- click on it to go to the ConSurf Gallery.
Co-authors: Ben-Tal, Nir;   Pupko, Tal;   Martz, Eric.   Submitted by: Martz, Eric.  (Entry 135).
 
Glover III, Claiborne   (bmbiris.bmb.uga.edu )  
Protein Kinase CKII (casein kinase II;   protein kinase;   phosphorylation;   kinase, protein)
A series of Chime-based tutorials illustrating the structure and function of casein kinase II (CKII), a highly conserved member of the S/T/Y protein kinase family. The three tutorials in the series are designed to be viewed sequentially and address
  1. the alpha subunit monomer (maize)
  2. the beta subunit dimer (human)
  3. the holoenzyme tetramer (human)
Each tutorial consists of a narrative description accompanied by integrated Chime animations that illustrate the major points. The animations, intitated by clicking buttons, can be viewed with minimal viewer interaction, but the user can also manipulate the structures via the Chime pop-up menu. (Note: The stereo mode has been set to cross-eyed rather than default wall-eyed to facilitate viewing in stereo on screen).
Submitted by: the author.  (Entry 131).

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Goldman, Matthew   (www.clunet.edu )  
HIV-1 Reverse Transcriptase (at The Online Macromolecular Museum) (reverse transcriptase and non-nucleoside inhibitors thereof;   retrovirus;   azt)
The enzyme reverse transcriptase (RT) is used by retroviruses to transcribe their single-stranded RNA genome into single-stranded DNA and to subsequently construct a complementary strand of DNA, providing a DNA double helix capable of integration into host cell chromosomes. This exhibit focuses on the structure-function relationships of the HIV-1 RT. The action of some RT inhibitors is examined.
Co-authors: Marcey, David.   Submitted by: Marcey, David.  (Entry 108).
 
Gopalan, Vivek   (surya.bic.nus.edu.sg )  
XdomView: A Chime-based Graphical Tool for Protein Domain and Exon Position Visualization (domain;   CATH;   SCOP;   DALI;   FSSP;   MMDB;   NCBI;   ExInt;   BLAST;   intron;   NUS;   Singapore;   protein;   PDB;   structural domain;   gene;   gene evolution;   intron evolution;   strucuture;   3DEE;   exon;   intron)

Enlarged image

XdomView (Version 2.1)
A Chime-based Graphical Tool for Protein Domain and Exon Position Visualization

XdomView is a chime-based visualization tool that maps the domain boundaries of the input PDB chain, obtained from protein structure classification databases (CATH, SCOP, NCBI, 3DEE and DALI) to its tertiary structure. It also runs BLAST2 for the input PDB chain sequence against all protein sequences in the ExInt* database and maps the intron positions and phases of aligned search results on the input protein's 3D structure. Xdom is a useful visualization tool for scientists working on gene and protein evolution and structural modeling and classification.

Contact Details :
Gopalan Vivek, Dr. Tan Tin Wee, Dr. Shoba Ranganathan
Bioinformatics Centre
Department of Biochemistry
National University of Singapore
*ExInt - Repository of intron positions, phase and protein sequences of all multi-exonic eukaryotic genes available in GenBank 122.

Co-authors: Shoba Ranganathan;   Tan Tin Wee.   Submitted by: the author.  (Entry 134).
 
Gorga, Frank   (webhost.bridgew.edu )  
Introduction to Protein Structure (protein structure;   peptide structure;   amino acid chemistry;   primary structure;   secondary structure;   tertiary structure;   quarternary structure;   alpha helix;   beta sheet)
This CHIME-enhanced site is meant for beginning biochemistry students. It covers every thing from the acid-base chemistry of the amino acids through the hierarchy of protein structure (i.e. primary to quarternary) much as the typical undergraduate biochemistry textbook does except that "live", interactive CHIME structures are used throughout.
Submitted by: the author.  (Entry 87).
 
Ras Oncogene Product (oncogene product, ras;   conformational changes in ras oncogene product;   G protein, low molecular weight;   p21;   guanine nucleotide binding protein)
This CHIME enhanced presentation is targeted at advanced undergraduate students taking courses in Biochemistry or Cell Biology. This presentation introduces oncogenes and biological signal transduction before turning to ras as an example of a molecular switch. The two conformations of RAS are displayed using CHIME and the user can easily switch between them. Lastly the structural basis for the two classes of oncogenic ras mutants (i.e. those affecting GTPase activity and those affecting nucleotide affinity) are discussed.
Submitted by: the author.  (Entry 88).
 
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Hansson, Orjan   (www.bcbp.gu.se )  
Biomolecular Structures (amino acids;   peptides;   basic biochemistry for undergrads;   protein structure;   nucleotides;   DNA;   RNA;   lesson plan)
Biomolecular Structures is an Internet tutorial intended as a computer-based laboratory exercise for undergraduate students in basic biochemistry. It covers the basic properties of amino acids, peptides, proteins, nucleotides and nucleic acids. The tutorial makes use of the Chemscape Chime plug-in and JavaScript. Particular attention has been paid to the design of the user interface so that students which are not so experienced with computers can navigate easily through the course. A form with simple questions is included. Extensive help is available to guide the user.
Submitted by: the author.  (Entry 132).
 
Redox Proteins (cytochromes;   iron-sulfur proteins;   copper proteins;   lesson plan)
Redox Proteins is an Internet tutorial intended as a computer-based laboratory exercise for undergraduate students in biochemistry. It covers organic redox cofactors, redox enzymes with organic cofactors, cytochromes, iron-sulfur proteins, copper proteins, complexes of redox proteins and multisubunit redox proteins. The tutorial makes use of the Chemscape Chime plug-in and JavaScript. Particular attention has been paid to the design of the user interface so that students which are not so experienced with computers can navigate easily through the tutorial. A form with simple questions is included. Extensive help is available to guide the user.
Submitted by: the author.  (Entry 133).
 
Harrison, Karl (editor)   (www.chem.ox.ac.uk )  
Molecule of the Month/Oxford University
Short overviews of the history and chemistry of diverse molecules, written by various authors. In each month, a different molecule is featured at each of the MOTM sites. Chime is often employed.
Submitted by: Martz, Eric.  (Entry 6).

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Heerssen, Heather   (www.clunet.edu )  
RecA Protein (at The Online Macromolecular Museum) (DNA recombination;   SOS response;   LexA protease;   DNA, single stranded;   DNA;   Holliday Junction;   DNA recombination)
The RecA protein of E. coli is a critical enzyme in DNA recombination, as it catalyzes the pairing of single-stranded DNA with complementary regions of double stranded DNA. In addition to its role in homologous recombination, RecA functions as a coprotease for the LexA protein during the SOS response. This Chime-based exhibit explores the structure-function relationships of this complex enzyme.
Co-authors: Downs, Aaron;   Marcey, David.   Submitted by: Marcey, David.  (Entry 103).
 
Herraez, Angel   (biomodel.uah.es )  
Biomodel - in English (amino acids;   peptides;   proteins;   alpha-helix;   beta-sheet;   hemoglobin;   DNA;   RNA;   bilayer, lipid;   lipid bilayer;   gramicidin channel;   water;   Jmol)
Self-guided tutorial, emphasizing 3D-structure and interaction between macromolecules. An English version, using Jmol models, that includes parts of the main Spanish site (which keeps parallel Chime and Jmol versions, and other material). Models are located inside an explanatory web page. Allows both guided tour and user-chosen pathway and action on models. Biomodel-2: a Jmol version of Eric Martz's Rasmol script on bilayer membranes and gramicidin channel. Biomodel-3 is a module addressed to secondary school students, includes sugars, lipids, some vitamins, amino acids, proteins, bases, nucleosides, nucleotides and nucleic acids. Biomodel-4 contains a Jmol version of Eric Martz's DNA Structure tutorial. Water contains a Jmol version of Eric Martz's Water Animation page.
Submitted by: the author.  (Entry 89).
 
DNA Structure (with Jmol) (GC base pair;   AT base pair;   hydrogen bonding, Watson-Crick;   Watson-Crick base pairing and hydrogen bonding;   double helix, DNA;   Jmol)
Adaptation of the existing "DNA Structure" by Eric Martz, using Jmol instead of Chime. Compatible with most modern browsers and operating systems (including MacOSX and Linux). Needs Java installed. Revised in 2006 for full functionality Also available in Spanish, Portuguese, French and German.
Co-authors: Martz, Eric.   Submitted by: the author.  (Entry 162).
 
Lipid Bilayers and the Gramicidin Channel (Jmol version) (gramicidin channel in lipid bilayer;   cholesterol;   phosphatidyl choline;   bilayer, lipid;   phospholipid bilayers;   Jmol)
This Jmol presentation shows cholesterol, phosphatidyl choline, and then illustrates the assembly of hydrated crystalline bilayer model. Results of two molecular dynamics simulations (by Helmut Heller et al.) are shown, resulting in gel- and fluid-like conformations. Then the gramicidin channel is shown in a hydrated bilayer of phosphatidyl ethanolamine (modeled by Serge Crouzy et al.). Adapted to Jmol in 2005 by Angel Herraez from the 2001 Chime version (by the same author, indexed separately under the same title) and the 1997 RasMol "Movie" Script by Eric Martz. Also available in Spanish.
Co-authors: Martz, Eric.   Submitted by: the author.  (Entry 164).
 
3D Periodic Table of Radii (using Jmol) (periodic table of the elements;   elements, periodic table of;   atomic radii;   trends, periodic, in atomic and ionic sizes;   van der Waals;   Jmol)
Atomic and ionic radii in Jmol
Inspired by Scot Wherland's Chime page, redesigned using Jmol and adding some other ideas. Uses Jmol's values of radii (for many more atoms) and Jmol's colors (more specific than Rasmol's).
A version in Spanish is also available.
Submitted by: the author.  (Entry 166).
 
Water Simulation - using Jmol (theoretical simulation of water;   simulation, theoretical, water;   lesson plan;   Jmol)
A theoretical simulation (done with MDL Sculpt) of 10 water molecules assembling into a compact, hydrogen-bonded network. Available as a Jmol animated model. Ten questions are provided for students about the final hydrogen-bonded droplet.
Co-authors: Martz, Eric.   Submitted by: the author.  (Entry 169).

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Honegger, Annemarie   (www.biochem.unizh.ch )  
AHo's Amazing Atlas of Antibody Structure (antibody;   antibodies;   multiple sequence alignment;   sequence variability;   homology modelling;   immunoglobulin;   domains;   color-coded multiple sequence alignment)
This site contains extensive tutorials and lectures on antibody structure coupled with analyses of sequence variability in antibodies. The site also has a very nice set of Microsoft EXCEL spreadsheets with macros that are very useful in displaying and analyzing protein multiple sequence alignments. The Numbering pages contain descriptions and help with the various schemes that have been applied to numbering amino acid positions within antibody molecules. Other pages contain extensive pre-built color-coded multiple sequence alignments which illustrate the usefulness of the EXCEL macros. There are CHIME based 3D structure displays and diagrams of antibody structures available.
Submitted by: Foley, Brian.  (Entry 157).
 
Howard, Vince   (www.kent.wednet.edu )  
Hemoglobin-S Polymerization Binding Site (hemoglobin;   sickle cell anemia, point mutation;   high school audience)
This is a draft demo of the hemoglobin-S polymerization binding site that results in sickle cell anemia due to a point mutation. The demo hi-lites the different hemoglobin chains, the heme groups within them, the point mutation, and the hydrophobic pocket in separate hemoglobin tetramers that bind to it such that polymerization occurs. The intended audience is high school advanced biology students.
Submitted by: the author.  (Entry 64).
    
Jakubowski, Henry   (employees.csbsju.edu )  
Chime and Jmol Files (student work;   chime;   jmol)
The site contains links to interactive Chime and Jmol files that are available from my online book: Biochemistry Online: An Approach Based on Chemical Logic. Some are links to outside files, but most have been created specifically for my Biochemistry I class and for my online. Most of the Chime files have been created by students. For the tutorials we created, the structural coordinates for the molecules were downloaded directly from the Protein Data Bank without further refinements or energy minimizations. In many the PDB files were simplified to show just the protein of interest. These files have been made over a five year period. The earlier ones are less interactive and have contain less written information. These tutorials are generally not sophisticated but get the main structural interest points across. I created the JMol tutorials this summer from the student Chime tutorials and corrected some factual biochemistry errors in some of the students projects.
Submitted by: the author.  (Entry 167).
 
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Kahn, Kalju   (www.chem.ucsb.edu )  
Macromolecular Visualization Laboratory Exercise (DNA;   transfer RNA;   HIV protease;   tRNA synthetase;   rhinovirus;   lesson plan;   SYBYL;   RasMol;   SGI workstations)
The tutorial with accompanyng exercises illustrates the kind of questions students can answer with the help of computer modeling. It focuses on analysis of molecular structures and shows how to create images that help to illustrate important features of macromolecules. The tutorial also teaches that biological macromolecules come in very different shapes and sizes.

The tutorial also teaches a few technical skills that are commonly used while working with computer visualization programs. First, it shows some typical capabilities of the visualization programs SYBYL and RasMol. It also teaches about image capture and manipulation programs on SGI workstations, and shows how one can send images created on an UNIX computer to other people.

The tutorial assumes access to modeling programs SYBYL and RasMol. The tutorial is part of a formal coursework for biochemistry majors at UCSB.

Submitted by: the author.  (Entry 150).
 
Klevickis, Cindy   (www.isat.jmu.edu )  
Molecular Visualization Resources for Project VISM (Bowen's Reaction Series;   small molecules;   micromolecules;   lesson plans;   K-12 education)
VISM is an NSF-funded program to promote the use of computer visualization resources in teaching science and math, especially for 6-12 students. This page is the VISM resource page for using RasMol and Chemscape Chime to teach Geology, Earth Science, Environmental Sciences and other Physical Sciences, as well as Biology and Chemistry. The page is under continual construction. Currently, there is one model lesson plan for "the Bowen's Reaction Series." Other lesson plans are under development. We are interested in developing a repository of pdb files for molecules related to physical sciences. However, there will also be lesson plans for Biology and Chemistry.
Submitted by: the author.  (Entry 49).
 
Course Home Page for "Computer Applications in Biotechnology" (NMR;   amino acids;   animated gifs;   spermine;   nucleotides;   student-authored tutorials)
"Computer Applications in Biotechnology" is a project-based class in which students create interactive tutorials using RasMol and Chemscape Chime. There are many links to examples of student projects. For example, one class project involves illustrating NMR spectra of amino acids and nucleotides using interactive Chime models.
Submitted by: the author.  (Entry 50).

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Krieger, Elmar   (www.yasara.org )  
Accessible, molecular and Van der Waals surfaces explained (surfaces;   solvent accessible surface;   molecular surface;   van der Waals surface;   YASARA)
An introduction to protein surfaces, explaining the difference between solvent accessible, molecular and Van der Waals surface. Shows water molecules rolling across the protein. Advanced tutorials about surface area calculations are available from the same page. The tutorial requires (and comes with) YASARA View.

Submitted by: the author.  (Entry 152).
 
Kysela, David   (www.clunet.edu )  
DNA Topoisomerase I (at The Online Macromolecular Museum) (topoisomerase, type I;   DNA supercoiling;   DNA unwinding)
E. coli DNA Topoisomerase I is responsible for the relaxation of negative supercoils in the bacterial chromosome. Topoisomerase I has also been implicated in knotting and unknotting DNA and in linking complementary rings of single-stranded DNA into double-stranded rings. The focus of this Chime-based exhibit is the structure-function relationships of the 67K, N-terminal fragment of Topoisomerase I.
Co-authors: Marcey, David.   Submitted by: Marcey, David.  (Entry 102).
   
Lawson, Cathy   (rutchem.rutgers.edu )  
The E. coli trp Repressor Chime Movie (trp repressor;   trpR;   repressor;   trp operator;   operator;   DNA binding protein;   ligand activation;   tryptophan)
This Chime movie illustrates the structural differences between crystal structures of the inactive apo form (3WRP) and liganded active form (1TRO) of trp repressor, a DNA binding protein from E. coli. Both structures are superimposed in a single PDB file which is downloaded to the left frame. Apo vs. holo forms are selected by toggling push buttons, and the trp operator DNA can also be toggled on and off. The site was designed to make it possible to easily compare these structures, and to illustrate one of few examples where the structural basis for ligand-activation of a DNA-binding protein has been clearly elucidated using crystal structure analysis.
Submitted by: the author.  (Entry 68).
 
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Mana, Miyeko   (www.clunet.edu )  
HIV-1 Protease (at The Online Macromolecular Museum) (viral protease;   retroviral protease;   protease, HIV-1)
HIV-1 Protease (PR) hydrolyzes viral polyproteins into functional protein products that are essential for viral assembly and subsequent activity. This maturation process occurs as the virion buds from the host cell. This Chime-based exhibit focuses on the structure-function relationships of PR.
Co-authors: Marcey, David.   Submitted by: Marcey, David.  (Entry 118).
 
Marcey, David   (www.clunet.edu )  
Online Macromolecular Museum (Amino Acid Structures;   Protein Structure and Chemical Bonds;   DNA Structure;   Protein Secondary Structure;   Extracellular Matrix Components;   Fibronectin;   HhaI DNA Methylase;   Methylase, DNA;   Hin Recombinase;   Recombinase;   HIV-1 Integrase;   HIV-1 Protease;   RecA (E. coli);   Topoisomerase I;   polymerases, DNA;   DNA polymerases;   HIV Reverse Transcriptase;   Reverse Transcriptase, HIV;   Phage T7 DNA Replication Complex;   Eukaryotic DNA Polymerase Beta;   Proliferating cell nuclear antigen (PCNA);   Antibody Recognition of Antigen;   Immunoglobulin Structure;   Viral Antigens;   E. coli Porins: OMPF and Maltoporin (LamB);   Porins;   Catalase;   Spliceosomal Protein-RNA Interactions, U1A;   Signal Recognition Particle Core (E. coli);   Protein Tyrosine Phosphatase;   Nitrogen Regulatory Protein;   MutS DNA Mismatch Repair Protein;   BamHI endonuclease;   Tryptophan Repressor;   cro repressor;   lambda repressor)
The Online Macromolecular Museum (OMM) is a site for the display and study of macromolecules. The OMM's exhibits are interactive, Chime-based tutorials on individual molecules in which hypertextual explanations of important biochemical features are linked to illustrative renderings of the molecule at hand. The OMM's exhibits are grouped into "halls" based on function.
- Hall of Introductory Exhibits
- Hall of Catalysis
- Hall of Cell Adhesion
- Hall of Membrane Biology
- Hall of DNA Polymerization
- Hall of DNA Recombination, Modification, Repair
- Hall of Signal Transduction and Transcription		 - Hall of Ribonucleoproteins
- Hall of Immunology
- Hall of Virology

Co-authors: Students at California Lutheran University;   Students at Kenyon College.   Submitted by: the author.  (Entry 18).
 
Chemical Bonds and Protein Structure (at The Online Macromolecular Museum) (chymotrypsin;   hydrogen bonds;   ionic bonds;   salt bridges;   hydrophobic bonds;   noncovalent bonds;   Van der Waals forces)
This Chime-based exhibit shows a few examples of the types of chemical bonds that play important roles in forming and stabilizing macromolecular structure. A model peptide of 12 amino acids that spans the gamma chymotrypsin protein is used to illustrate example bonds in a known structure.
Submitted by: the author.  (Entry 96).
 
DNA Polymerase III-Beta Subunit (at The Online Macromolecular Museum) (DNA polymerase;   Sliding DNA clamp;   processivity subunit)
The beta subunit of DNA pol III (E. coli)provides for the remarkable processivity of the holoenzyme during replication. The subunit is a ring-shaped clamp that embraces DNA in a central 35 angstrom hole and tethers the remainder of pol III to the template. This Chime-based exhibit explores the structure and function of the polIII beta subunit.
Submitted by: the author.  (Entry 107).
 
U1A Spliceosomal Protein (at The Online Macromolecular Museum) (RNA splicing;   Splicesomal Protein;   snRNP)
This Chime-based exhibit examines the binding of U1A protein to both the U1 snRNA in the U1 snRNP and to the 3' untranslated region of the mRNA that encodes the U1A protein.
Submitted by: the author.  (Entry 111).
 
Signal Recognition Particle Core (at The Online Macromolecular Museum) (signal recognition;   protein targeting;   SRP)
In both eukaryotes and prokaryotes, a signal recognition particle (SRP) is responsible for recognizing and binding to a signal sequence at the amino terminus of a growing, membrane-bound protein. This is essential for targeting the protein to the membrane. This exhibit focuses on the structure of the SRP core of E. coli, which represents an evolutionarily preserved core of the SRP in all organisms.
Submitted by: the author.  (Entry 114).
 
Antibody Recognition of Antigen (at The Online Macromolecular Museum) (hypervariable regions, immunoglobulin;   immunoglogulin binding;   complementarity-determining regions;   CDRs)
This exhibit uses three examples of antibody-antigen complexes to illustrate some structural features of antibody recognition of epitope. Antibody bound to a globular protein antigen is followed by an examination of the mechanisms of peptide antigen binding. The exhibit finishes with a look at antibody recognition of a small antigenic molecule, a hapten.
Submitted by: the author.  (Entry 115).
 
Immunoglobulin Structure (at The Online Macromolecular Museum) (antibody structure;   immunoglobulin fold)
This Chime-based exhibit provides an introduction to immunoglobulin structure, including tetramer structure, the structure of the immunoglobulin fold, and the structure of the variable region.
Submitted by: the author.  (Entry 116).
 
Cro Repressor of Temperate Bacteriophages (at The Online Macromolecular Museum) (bacteriophage cro;   bacteriophage repressor;   operator DNA;   transcription regulation;   genetic switch)
Cro, a repressor protein of temperate bacteriophages (e.g. lambda, 434, P22), works in opposition to the phage's repressor to control the genetic switch that determines whether a lytic or lysogenic cycle will follow infection. This Chime-based exhibit explores the structure of cro.
Submitted by: the author.  (Entry 125).
 
Erythropoietin - EPO Receptor Complex (at The Online Macromolecular Museum) (EPO;   Erythropoietin;   receptor binding;   cytokine)
Erythropoietin (EPO), a cytokine hormone, is responsible for the regulation of red blood cell production. EPO is a glycoprotein produced primarily in the the kidney. Secreted EPO (165 amino acids) binds to EPO receptors on the surface of bone marrow erythroid precursors, resulting in their rapid replication and maturation to functional red blood cells. This Chime-based exhibit explores EPO and EPO Receptor structure and binding.
Submitted by: the author.  (Entry 130).
 
DNA Conformers (at The Online Macromolecular Museum) (DNA Structure;   A-DNA;   B-DNA;   Z-DNA)
This Chime-based tutorial compares the essential structural features of A-, B-, and Z-DNA.
Submitted by: the author.  (Entry 142).
 
DNA Structure (at The Online Macromolecular Museum) (B-DNA;   DNA structure;   major groove;   minor groove;   nucleotide;   phosphodiester linkage;   antiparallel strands)
This Chime-based exhibit explores the structures of the B-DNA polymer and B-form double helix.
Submitted by: the author.  (Entry 143).

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Martz, Eric   (www.umass.edu )  
DNA Structure (English, German, Portuguese, Spanish)(GC base pair;   AT base pair;   hydrogen bonding, Watson-Crick;   Watson-Crick base pairing and hydrogen bonding;   double helix, DNA)
At MolviZ.Org: Chime images of a 17-base-pair DNA double helix. This is not a self-contained tutorial, but rather a supplement to a text or class on DNA structure. Buttons which highlight features of the DNA may be pressed in any order, and their actions depend on which buttons were pressed earler. For example, [Bases] followed by [Spacefill] spacefills all the base pairs (but not the backbone), whereas [GC] followed by [Spacefill] spacefills the single GC base pair. Four pages emphasize (1) base pairs and hydrogen bonding, (2) the code, (3) strands and helical backbone, and (4) ends and antiparallelism. A simple animation of base-by-base replication is included. The nonlinear/random button interface is unique among Chime presentations on the web. Downloadable for off-line use, local installation or modification. New version July 2002 is compatible with Windows Internet Explorer, and has other enhancements.

Also available in German, Portuguese, and Spanish.

Submitted by: the author.  (Entry 12).
 
Hemoglobin (sickle hemoglobin)
At MolviZ.Org: A tutorial on hemoglobin in Chime including an introduction to stick, ball and stick, spacefill renderings, peptides and backbones, basic hemoglobin tetramer structure, heme, iron, histidine and oxygen binding to iron, secondary structure, zoom to one alpha helix and its hydrogen bonds, amphipathicity of helices, hydrophobic interior and polar surface of each monomer, sickle hemoglobin, its mutation and how that causes polymerization. Buttons can be pushed in any order yet always give the same images. Font size can be dymanically changed for large audiences. The utilities menu enables recentering, atom identification, measuring distances, and changing background color from black to white for printing. Downloadable for off-line use, local installation or modification.
Submitted by: the author.  (Entry 13).
 
Antibody (immunoglobulin and Ig domains;   IgG;   epitope structure, lysozyme bound to antibody;   disulfide bonds in immunoglobulin;   complementarity-determining regions in antibody;   glycosylation of antibody, N-linked;   lesson plan, antibody)
At MolviZ.Org: A tutorial on IgG structure in Chime including an introduction to stick, ball and stick, spacefill renderings, peptides and backbones, disulfide bond renderings, the immunoglobulin domain (secondary structure, disulfide bond, hydrophobic core and polar surface), Fab:lysozyme complex with all 6 CDR's identified, paratope contact atoms vs. CDR's, epitope contact atoms, the flat and discontinuous character of the epitope, F(ab')2 and inter-chain disulfide bonds, intact IgG1, and the location and attachment of carbohydrate. Buttons can be pushed in any order yet always give the same images. Font size can be dymanically changed for large audiences. The utilities menu enables recentering, atom identification, measuring distances, and changing background color from black to white for printing. A list of questions is provided which can be printed and handed out to a class as a focus worksheet (lesson plan). Downloadable for off-line use, local installation or modification.
Submitted by: the author.  (Entry 14).
 
Major Histocompatibility Complex (MHC classes I and II;   virus peptides, binding to MHC;   epitopes, T-cell;   H-2 (mouse MHC);   HLA (human MHC);   lesson plan, MHC)
At MolviZ.Org: A tutorial on MHC structure in Chime including an introduction to stick, ball and stick, spacefill renderings, peptides and backbones, disulfide bond renderings, MHC class I secondary and tertiary structure, beta-2 microglobulin, CD8-binding site, papain cleavage site, the peptide-binding cleft, Sendai nucleoprotein nonamer and vesicular stomatitus virus nucleoprotein octamer binding to H-2Kb with comparison of their T-cell epitopes. MHC class II secondary and tertiary structure and peptide binding (HLA-DR1 with influenza hemagglutinin 13-mer). Buttons can be pushed in any order yet always give the same images. Font size can be dymanically changed for large audiences. The utilities menu enables recentering, atom identification, measuring distances, and changing background color from black to white for printing. A list of questions is provided which can be printed and handed out to a class as a focus worksheet (lesson plan). Downloadable for off-line use, local installation or modification.
Submitted by: the author.  (Entry 15).
 
Amino Acid Quizzer (quizzer, amino acid;   lesson plan, amino acid quizzer)
At MolviZ.Org: The wireframe of a small protein is shown in Chime. Each student is assigned a residue number or range. When the number(s) are entered, Chime automatically zooms in to show atomic detail of the amino acid(s) as ball and stick, CPK-colored (color key is provided). Students can then answer questions posed by the instructor such as amino acid identity, side-chain properties, and which of two amino acids is closer to the N terminus. Lesson plan (sequence key is available to instructors on request). Downloadable for off-line use, local installation or modification.
Co-authors: White, Brian.   Submitted by: the author.  (Entry 17).
 
Protein Explorer for Novices (RasMol-like exploration;   Chime made easy to use;   QuickViews and FirstView;   Explorer, Protein;   Sequence, clickable, mapping to structure;   Seq3D)
Choose any molecule, and explore it in Chime. Protein Explorer makes the power of Chime easy to use. The initial molecular image is maximally informative, and is explained for novices by the FirstView screen. The QuickViews menus and buttons enable powerful visualization by novices without use of RasMol-style commands (but Protein Explorer accepts all RasMol commands should you know any). Every operation is explained with color keys where appropriate. Much easier to use yet more powerful than RasMol, Protein Explorer includes MENU options for selection by chain, rendering of surfaces and contact surfaces, hiding portions of the structure, automated tools for distinguishing DNA from RNA, centering, and coloring by ATCGU or hydrophobicity/polarity. The amino acid or nucleotide sequence can be clicked to locate residues in the 3D structure (Seq3D). Snapshots offer a quick preview. See also Advanced Protein Explorer which has many more capabilities. Downloadable for off-line use, local installation or modification.
Submitted by: the author.  (Entry 36).
 
Protein Explorer, Advanced (Advanced Protein Explorer;   Noncovalent Bond Finder;   Multiple protein sequence alignment coloring;   MSA3D;   Contact surfaces;   NMR ensembles played as movie)
Choose any molecule, and explore it in Chime. Protein Explorer makes advanced capabilities of Chime easy to use. The Contact Surfaces form produces overviews of noncovalent bonds at interfaces, which can be rendered as solid or transparent surfaces. Cation-pi interactions and salt bridges can be displayed. The Noncovalent Bond Finder makes easy a detailed exploration of hydrogen bonds, hydrophobic interactions, and water bridges. Ensembles of models (as from NMR or morphs) can be played as a movie with custom rendering and coloring. Molecules can be colored to indicate conservation or mutation frequency based on multiple protein sequence alignments (MSA3D). A nonvolatile "expert" preference setting bypasses help for novices.See the Snapshots. See also Protein Explorer for Novices. Downloadable for off-line use, local installation or modification.
Co-authors: (MSA3D component coauthored by Paul Stothard).   Submitted by: the author.  (Entry 37).
 
PDB Lite (Searching for molecules;   Molecules, finding)
Designed for novices, students, educators, and occasional users, this search interface to the Protein Data Bank has direct links for viewing molecules in "FirstGlance in Chime" and Protein Explorer. PDB Lite's database is updated weekly with new releases. TheProtein Data Bank is the international archive of all published 3D macromolecular structures.
Co-authors: Prilusky, Jaime.   Submitted by: the author.  (Entry 38).
 
Morpher, Protein (recoverin, morph;   conformational changes, morphs;   EF-hand, morph;   calmodulin, morphs;   influenza hemagglutinin, morph;   integrin CD11b MIDAS domain, morph;   cAMP kinase, morph;   calcium binding to an EF-hand, morph)
At MolviZ.Org: Morphs of conformational changes, featuring recoverin, a calcium-activated myristoyl switch and its EF-hands binding/losing calcium. Also offered are undocumented morphs of calmodulin binding calcium, then peptide; influenza hemagglutinin low pH change; integrin CD11b MIDAS domain putative affinity increase for ligand; and cAMP kinase binding regulatory peptide. Introduction addresses the purpose of morphing, and the pros and cons of linear interpolation vs. plausible intermediate modeling. Morphing methods are detailed. Downloadable for off-line use, local installation or modification.
Submitted by: the author.  (Entry 54).
 
NonCovalent Bond Finder (NCBF) (hydrogen bonds, finding;   hydrophobic interactions, finding;   van der Waals interactions, finding;   salt bridges, finding)
At MolviZ.Org: The NonCovalent Bond Finder is a Chime-based tool for finding and displaying the atoms closest to any moiety of interest ("target") in any molecule. After loading your molecule and selecting the target atom or atoms, simply pressing a button labeled "Find" displays the atoms within 2.5 Angstroms of the target. Repeated presses of the "Find" button move out in 0.1 Angstrom increments, highlighting newly found atoms with dot surfaces. The starting distance and step size are configurable. The "find only" and "don't find" options enable, for example, only hydrogen bonds, or only hydrophobic interactions to be visualized in a given cycle. A detailed tutorial is provided, using the binding of a nonapeptide to a major histocompatibility protein as an example. Here is a snapshot of the NCBF in action. Downloadable for off-line use, local installation or modification.
Submitted by: the author.  (Entry 55).
 
Lipid Bilayers and the Gramicidin Channel (Chime version) (gramicidin channel in lipid bilayer;   cholesterol;   phosphatidyl choline;   bilayer, lipid;   phospholipid bilayers)
At MolviZ.Org: This Chime presentation shows cholesterol, phosphatidyl choline, and then illustrates the assembly of hydrated crystalline bilayer model. Results of two molecular dynamics simulations (by Helmut Heller et al.) are shown, resulting in gel- and fluid-like conformations. Then the gramicidin channel is shown in a hydrated bilayer of phosphatidyl ethanolamine (modeled by Serge Crouzy et al.). Adapted to Chime in 2001 by Angel Herraez from the 1997 RasMol "Movie" Script by Eric Martz. Also available in Spanish. Links are provided for further exploration of these models in Protein Explorer. Now also available using Jmol, both in English and Spanish (indexed separately under the same title).
Co-authors: Herraez, Angel.   Submitted by: Herraez, Angel.  (Entry 90).
 
How to Create New Chime Tutorials (scripting methods in Chime;   Chime methods and tools;   authoring new Chime websites, methods;   methods for constructing new Chime websites and scripts)
At MolviZ.Org: Methods and tools for constructing new tutorials and websites with Chime are gathered in this section of the World Index of Molecular Visualization Resources. This separates them from the present section, which is for "Ready to Use" tutorials.
Submitted by: the author.  (Entry 124).
 
Water Simulation (theoretical simulation of water;   simulation, theoretical, water;   lesson plan;   Chime)
At MolviZ.Org: A theoretical simulation (done with MDL Sculpt) of 10 water molecules assembling into a compact, hydrogen-bonded network. Available as saved animations viewable in Chime, and as a morph for Protein Explorer. Ten questions are provided for students about the final hydrogen-bonded droplet.
Now also in Jmol version, English and Spanish (look below).
Submitted by: Herraez, Angel.  (Entry 153).
 
MolviZ.Org (English, Spanish, German, Portuguese)
MolviZ.Org is easy to remember for accessing diverse tutorials and molecular visualization resources listed alphabetically elsewhere in this index, such as DNA Structure, Hemoglobin, Antibody, Major Histocompatibility, Lipid Bilayers and Channels, vibrations in IR spectroscopy, simulation of water forming hydrogen bonds, the Protein Explorer, Protein Morpher, Atlas of Macromolecules, Noncovalent Bond Finder, Toobers in Science Education, History of Visualization of Biological Macromolecules, Knots in Proteins, and methods for creating web pages using MDL Chime. One thing that distinguishes MolviZ.Org from other collections of molecular visualization resources is that all of the tutorials at MolviZ.Org are downloadable.
Submitted by: the author.  (Entry 154).
 
Lac repressor bending DNA operon (bending of DNA;   animations;   Chime;   lesson plan)
At MolviZ.Org: Animations of the lac repressor bending its DNA operon when nonspecific binding to DNA converts to specific binding. Several animations that can be viewed in MDL Chime highlight different aspects of the specific binding process. One shows 5 hydrogen bonds forming in the major and minor grooves representing sequence-specific recognition. The animations were saved from Protein Explorer using a linear-interpolation morph, which is provided for direct exploration in Protein Explorer. Questions are provided for students.
Submitted by: the author.  (Entry 156).
 
Flagellar Hook, Bacterial -- A Molecular Universal Joint (hook, flagellar;   universal joint, molecular: flagellar hook)
Animations of the rotation of the bacterial flagellar hook, based on a crystal structure of the monomer, 121 copies of which were assembled into a cryo-EM structure of the hook, and rotated by molecular dynamics simulation. Based on work by Samatey et al. in the groups of DeRosier and Namba, published in Nature 431:1062, October 2004.
Submitted by: the author.  (Entry 161).

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May, Paul (editor)   (www.bris.ac.uk )  
Molecule of the Month/University of Bristol (Cisplatin;   Thalidomide;   Histrionicotoxin;   Chlorophyll;   Melatonin;   cis-g-Irone;   Frankincense;   Boswellic Acid;   DNA;   Tamoxifen;   Tetrodotoxin;   Psilocybin;   Mescaline;   Anatoxin;   Salbutamol;   Zyban;   Bupropion;   Nitrous oxide;   Adrenaline;   Staurosporine;   Ptaquiloside;   Sarin, cubane;   LSD;   Polythiophene;   Ferritin;   Saxitoxin;   Water;   Formaldehyde;   Finasteride;   Mustard Gas;   Proline;   MCM-41;   Ozone;   Sulfanilamide;   Adenosine Triphosphate;   ATP;   ChemSymphony)
Short overviews of the history and chemistry of diverse molecules, written by various authors. In each month, a different molecule is featured at each of the MOTM sites. Chime is often employed.
Submitted by: Miller, Mitch.  (Entry 5).
 
Mazur, Eric   (www.clunet.edu )  
Viral Antigens (at The Online Macromolecular Museum) (HIV gp120;   influenza hemagglutinin;   flu virus;   hemagglutinin, influenza)
This Chime-based exhibit concerns the structure/function/variability of two viral spike antigens, hemagglutinin of the human influenza virus, and glycoprotein 120 (gp120) of the human immunodeficiency virus (HIV-1).
Co-authors: Marcey, David.   Submitted by: Marcey, David.  (Entry 117).
 
McClure, Will   (www.bio.cmu.edu )  
Estrogen Receptor Structures & Function (nuclear hormone receptor;   transcription activation)
An "Overview" provides a brief introduction to the estrogen receptor (ER) and its functions, including literature citations and WWW links. The Chime pages show ERa and ERb as dimers and focus on the ligand specificity and conformational changes that accompany agonist or antagonist binding to the ligand-binding domain (LBD). The LBD complexes include the agonists: estradiol, diethlystilbestrol, and genistein; the antagonists shown are: raloxifene and tamoxifen. Differences between the ERa and ERb complexes are shown separately and as superimposed (aligned) models. The ER DNA-binding domain (DBD) complex with an ERE is also shown. Linked pages show small molecule models of the above ligands and several other estrogens and steroids.
PDB ID codes: 1ERE, 1ERR, 3ERD, 3ERT, 1A52, 1QKM, 1QKN, 1HCQ.
Co-authors: Saha, Suparna.   Submitted by: the author.  (Entry 95).
 
70S Ribosome Architecture (30S ribosomal subunit;   50s ribosomal subunit;   protein synthesis;   ribosome structure and translation;   translation (animation) and ribosome structure;   animation of translation in the ribosome)
Overview of the 70S bacterial ribosome crystal structure and a Chime animation of steps in translation.
PDB ID codes: 1gix.pdb and 1giy.pdb
Submitted by: the author.  (Entry 122).

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McClure, William   (www.bio.cmu.edu )  
Molecules for Modern/Cell Biology (Elements;   H2O cluster;   Functional Groups;   Enantiomers of glyceraldehyde;   Fats: Glycerol & Fatty Acids;   Phospholipid;   Membranes;   Bacteriorhodopsin: A membrane-spanning protein;   Cholesterol;   Sucrose -> Fructose & Glucose;   Amino Acids & Peptides;   a-Helix & b-Sheet in a Small Protein;   Lysozyme & substrate;   Hemoglobin;   Nucleotides: A, C, G, T, & U;   DNA & RNA;   ATP;   NAD+;   CAP (cAMP binding protein) & DNA;   cAMP)
An index table of figures in common textbooks for introductory biology or cell biology courses where molecular structures are pictured. Chime displays of the structures can be viewed by following the links provided.
Submitted by: the author.  (Entry 19).
 
Side-by-Side Amino Acid Viewer (amino acids, all 20;   Met-enkephalin;   oxytocin;   peptides and peptide bond)
In a frames format, the selection forms above each frame let you view each of the 20 amino acids using the Chemscape Chime Plug-in. The buttons in each frame highlight side chain functional groups, overall dimensions, and side chain polarity. The last six entries in the selection lists are peptides. In addition to highlighting features of the peptide bond, these models serve as a review of amino acid side-chain structures.
Submitted by: the author.  (Entry 20).
 
Protein Structures List (Rubredoxin (1caa.pdb), a small protein consisting mostly of b-meanders;   Prealbumin (1eta.pdb), (a.k.a. transerythrin), an antiparallel b-barrel;   Triose Phosphate Isomerase (1ypi.pdb), a parallel b-barrel with alternating bab motifs;   Collagen (1a89.pdb), a theoretical model of the triple helix;   a-lactalbumin (1b90.pdb), a human plasma transport protein;   Myoglobin (oxy) (1mbo.pdb), a monomeric O2 carrier;   Hemoglobin (oxy) (1hho.pdb), the red blood cell O2 carrier;   Hemoglobin(deoxy) (1b86.pdb), with bound 2,3-bisphosphoglycerate (BPG);   Tropomyosin (2tma.pdb), a fibrous coiled-coil protein;   Rop Protein Dimer (1rop.pdb), a globular coiled-coil protein;   Immunoglobulin G (Igg.pdb), an all-b antibody protein;   Concanavalin A (2cna.pdb), an antiparallel b-barrel;   Pyruvate Kinase (1pkn.pdb), a multi-domain protein with three discrete b-structures;   Lactate Dehydrogenase (1ldm.pdb), a two-domain protein with a nucleotide-binding motif;   Silk Protein (2slk.pdb), a theoretical model of the fibrous b-sheet protein;   Bacteriorhodopsin (Br.pdb), a light-driven proton pump;   K+-Channel (1bl8.pdb), an ion-selective pore;   Maltoporin (2mpr.pdb), a trimeric sugar transporter in bacteria;   Hemolysin (7ahl.pdb), a heptameric channel-forming toxin;   Photosynthetic Reaction Center (1qov.pdb), the bacterial electron pumping complex)
An index page of links to one-page Chime displays of the structures shown in Chapter 4 of Campbell (and many other biochemistry textbooks). The corresponding figure (or page) numbers are shown. Each page illustrates an important structural feature or general principle found in other proteins. The emphasis here is on the overall architecture of proteins rather than specific functions of individual amino acid residues (more on this topic later!). Mastery of the key principles is required for the course.
Submitted by: the author.  (Entry 21).
 
Protein G Structure Tutorial (Protein G (1pgb.pdb), crystal structure;   Protein G (2gb1.pdb), NMR structure)
In a frames format, the B1 domain of protein G from Streptococcus is used to highlight several features of protein architecture that are found in many other proteins. In addition, each of the Chime images and the buttons that modify them serve as starting points for making changes in the displays.
Submitted by: the author.  (Entry 22).
 
Signal Recognition Particle (SRP, the E. coli signal recognition particle, (1dul.pdb);   E. coli Ffh protein: the protein subunit without RNA (2ffh.pdb);   Domain IV RNA Structure (1cq5.pdb).)
A one-page Chime display of the signal recognition particle (SRP) shows the M domain of E. coli Ffh protein complexed with domain IV of 4.5S RNA (1dul.pdb). There are also links to similar Chime displays of:
Domain IV RNA Structure: the average NMR structure of the RNA alone (1cq5.pdb).
Ffh protein: the protein subunit without RNA (2ffh.pdb).
All three models in a side-by-side display on one page.
Submitted by: the author.  (Entry 23).
 
Bacteriorhodopsin (bacteriorhodopsin (1brx.pdb))
A one-page Chime display of nine recent bacteriorhodopsin structures and links to the PubMed entries for the structure references.
Submitted by: the author.  (Entry 24).
 
Overviews of DNA & RNA Structure (DNA (1bna.pdb);   RNA (RNA.pdb))
Side-by-side Chime displays of DNA and RNA with highlighted G-C and A-T(A-U) base pairs.
Submitted by: the author.  (Entry 25).
 
Images of Glycolysis Intermediates (glycolysis)
In a frames format, the reactions of glycolysis are shown as Chime displays of the substrates, products and cofactors. Links to the fermentation fates of pyruvate and to similar displays of TCA cycle intermediates are provided.
Submitted by: the author.  (Entry 26).
 
Structures for Molecular Biology (B-Form DNA helix;   A-Form RNA helix;   cAMP Receptor Protein (CRP);   Yeast GAL4 Protein;   Human hnRNP A1;   snRNP U1A;   EF-Tu, tRNAPhe, and GTP;   Zif268 zinc finger;   EcoRI Res. Endonuclease;   HhaI Res. Methylase;   Nucleosome)
An index table of structures for molecular biology courses. PubMed entries and Chime displays of the structures can be viewed by following the links provided.
Submitted by: the author.  (Entry 27).
 
Amino Acid Identification Quiz (lesson plan;   quiz;   amino acids)
Quiz in a frames format; the user is required to identify the 20 amino acids shown as Chime images by name, abbreviation, and/or one-letter code. Answers are provided after each selection, and a running total of correct and incorrect responses is tabulated.
Submitted by: the author.  (Entry 28).
 
Nucleotide Identification Quiz (lesson plan;   quiz;   nucleotides)
Quiz in a frames format; the user is required to identify 15 common nucleotides shown as Chime images by name and abbreviation. Answers are provided after each selection, and a running total of correct and incorrect responses is tabulated.
Submitted by: the author.  (Entry 29).
 
Images of TCA Cycle Intermediates (Tricarboxylic acid cycle;   Citric acid cycle;   Kreb's cycle)
In a frames format, the reactions of the TCA Cycle are shown as Chime displays of the substrates, products and cofactors.
Submitted by: the author.  (Entry 30).
 
tRNA Tour (tRNAPhe (6tna.pdb))
In a frames format, this Chime-based tutorial displays the secondary and tertiary structural features of yeast tRNAPhe. It is designed to complement the description in Saenger, W. (1984) Principles of Nucleic Acid Structure Ch. 15 "tRNA-A Treasury of Stereochemical Information".
Submitted by: the author.  (Entry 31).