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Modeling Biomolecules Using the WWW. Major Classes of Biomolecules n Peptides (Proteins) n Carbohydrates n Nucleic Acids n Lipids.

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Presentation on theme: "Modeling Biomolecules Using the WWW. Major Classes of Biomolecules n Peptides (Proteins) n Carbohydrates n Nucleic Acids n Lipids."— Presentation transcript:

1 Modeling Biomolecules Using the WWW

2 Major Classes of Biomolecules n Peptides (Proteins) n Carbohydrates n Nucleic Acids n Lipids

3 Modeling Peptides n Primary structure – Most molecular modeling software allows construction of peptide models by appending pre-constructed amino acids in sequence, usually by selecting their 1- or 3- letter abbreviations. n Secondary structure – features such as  -helix,  (pleated) sheet, hairpin turns, etc. can be specified (examples on following panel).

4 Alpha Helix Secondary Structure

5 Beta Sheet Secondary Structure

6 Hairpin Turn Secondary Structure Hairpin turn, Beta sheet Hairpin turn, alpha helix

7 Modeling Peptides... n Tertiary structure – folding of chains…more difficult to model accurately, unless structure is known from X-ray or NMR. n Quaternary structure – Combination of several subunits...likewise difficult to model accurately, unless structure is known from X-ray or NMR.

8 Modeling Peptides... n Computations are usually limited to molecular mechanics, although semi- empirical MO calculations can be performed on small biopolymers. n MM Forcefields designed for biomolecules: – Amber (peptides and nucleic acids)/Kollman – OPLS (peptides and nucleic acids)/Jorgensen – BIO+ (biomacromolecules)/Karplus (all of these are found in HyperChem)

9 Modeling Biomolecules using HyperChem

10 HyperChem n Special database for Peptides n 20 Pre-optimized amino acids n Peptide menu choices –  helix –  (pleated) sheet – other n Termination modes: – NH 2 or NH 3 + ; CO 2 H or CO 2 -

11 Spartan n Special database for Nucleotides n 4 Pre-optimized bases (A,T,C,G) n Nucleotide menu choices – DNA (double strand), DNA (single strand) – RNA (double strand), RNA (single strand) – DNA-RNA mixed n A, B or Z helical forms (differ in rise/base)

12 WWW pages dealing with Modeling Biomolecules n Georgia State University molecular modeling site: modeling problems, biomolecules: http://heme.gsu.edu/glactone/ http://heme.gsu.edu/glactone/ n Dr. Barry Honig’s web site (Columbia University… great images of biomolecules): http://wiki.c2b2.columbia.edu/honiglab_public/index.php/Main_Page http://wiki.c2b2.columbia.edu/honiglab_public/index.php/Main_Page n

13 WWW pages dealing with Modeling Biomolecules... n Molecular Graphics (rendering); University of Geneva, Switzerland (Dr. Jacques Weber) http://scsg9.unige.ch/fln/eng/toc.html NIH Center for Molecular Modeling http://cmm.info.nih.gov/modeling/ http://cmm.info.nih.gov/modeling/

14 WWW pages dealing with Modeling Biomolecules... n Molecular Modeling Research Group at the Dept. of Agricultural Environmental Sciences and Food Biotechnology, University of Sassari - ITALY: http://antas.agraria.uniss.it http://antas.agraria.uniss.it n The Research Collaboratory for Structural Bioinformatics (PDB database of structures of proteins and other biomolecules): http://www.rcsb.org http://www.rcsb.org

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