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NIH membranes grant [mem]
Structural Genomics of Membrane Proteins
P01 GM54160-02 (PI Engelman)
7/1/99 - 6/30/04
NIH/NIGMS
Structural Genomics of Membrane Proteins
Role: subproject PI
This is a subproject of a program project entitled "Structural Motifs in Membrane Proteins". The subproject focuses on large-scale genome surveys of membrane proteins and their sequence motifs.
[Aim 1]
Our first aim is to apply methods to inventory all membrane proteins and membrane-associated proteins in recently sequenced genomes.[Aim 2]
Our second aim is to look at protein-protein interactions among helical membrane proteins from a database perspective. We wanted to put the TM-helix oligomerization motifs found in the genetic screens by the Beckwith and Engelman groups (e.g. GXXXG) into a context by comparing them to the helix-helix interfaces in the database of known structures -- both of the many soluble proteins and the few TM ones. In this context we were particularly keen to focus on protein flexibility and to analyze whole-genome information on protein-protein interactions.[Aim 3]
Our final aim was to integrate into a comprehensive database the information on the occurrence and interaction of membrane proteins generated in the first two aims with further information, e.g. related to expression.
Related material:
Year 1 report [ doc ][ html ]
Year 2 report [ doc ][ html ]
Year 3 report [ doc ][ html ]
Year 4 report [ doc ][ html ]
Overall report [ doc ][ html ]
URL: http://crisp.cit.nih.gov/crisp/CRISP_LIB.getdoc?textkey=6519739&p_grant_num=5P01GM054160-07&p_query=&ticket=3180976&p_audit_session_id=15237492&p_keywords=
Articles funded by this grant:
- Use of thioredoxin as a reporter to identify a subset of Escherichia coli signal sequences that promote signal recognition particle-dependent translocation.
- D Huber, D Boyd, Y Xia, MH Olma, M Gerstein, J Beckwith (2005) J Bacteriol 187: 2983-91.
- Sequence variation in G-protein-coupled receptors: analysis of single nucleotide polymorphisms.
- S Balasubramanian, Y Xia, E Freinkman, M Gerstein (2005) Nucleic Acids Res 33: 1710-21.
- Calculation of standard atomic volumes for RNA and comparison with proteins: RNA is packed more tightly.
- NR Voss, M Gerstein (2005) J Mol Biol 346: 477-92.
- Computational analysis of membrane proteins: genomic occurrence, structure prediction and helix interactions.
- U Lehnert, Y Xia, TE Royce, CS Goh, Y Liu, A Senes, H Yu, ZL Zhang, DM Engelman, M Gerstein (2004) Q Rev Biophys 37: 121-46.
- Analyzing cellular biochemistry in terms of molecular networks.
- Y Xia, H Yu, R Jansen, M Seringhaus, S Baxter, D Greenbaum, H Zhao, M Gerstein (2004) Annu Rev Biochem 73: 1051-87.
- Selection and characterization of small random transmembrane proteins that bind and activate the platelet-derived growth factor beta receptor.
- LL Freeman-Cook, AM Dixon, JB Frank, Y Xia, L Ely, M Gerstein, DM Engelman, D DiMaio (2004) J Mol Biol 338: 907-20.
- Transmembrane protein domains rarely use covalent domain recombination as an evolutionary mechanism.
- Y Liu, M Gerstein, DM Engelman (2004) Proc Natl Acad Sci U S A 101: 3495-7.
- TopNet: a tool for comparing biological sub-networks, correlating protein properties with topological statistics.
- H Yu, X Zhu, D Greenbaum, J Karro, M Gerstein (2004) Nucleic Acids Res 32: 328-37.
- The human genome has 49 cytochrome c pseudogenes, including a relic of a primordial gene that still functions in mouse.
- Z Zhang, M Gerstein (2003) Gene 312: 61-72.
- A method to assess compositional bias in biological sequences and its application to prion-like glutamine/asparagine-rich domains in eukaryotic proteomes.
- PM Harrison, M Gerstein (2003) Genome Biol 4: R40.
- Calculations of protein volumes: sensitivity analysis and parameter database.
- J Tsai, M Gerstein (2002) Bioinformatics 18: 985-95.
- Subcellular localization of the yeast proteome.
- A Kumar, S Agarwal, JA Heyman, S Matson, M Heidtman, S Piccirillo, L Umansky, A Drawid, R Jansen, Y Liu, KH Cheung, P Miller, M Gerstein, GS Roeder, M Snyder (2002) Genes Dev 16: 707-19.
- Thermostability of membrane protein helix-helix interaction elucidated by statistical analysis.
- D Schneider, Y Liu, M Gerstein, DM Engelman (2002) FEBS Lett 532: 231-6.
- Systematic learning of gene functional classes from DNA array expression data by using multilayer perceptrons.
- A Mateos, J Dopazo, R Jansen, Y Tu, M Gerstein, G Stolovitzky (2002) Genome Res 12: 1703-15.
- Digging deep for ancient relics: a survey of protein motifs in the intergenic sequences of four eukaryotic genomes.
- ZL Zhang, PM Harrison, M Gerstein (2002) J Mol Biol 323: 811-22.
- GeneCensus: genome comparisons in terms of metabolic pathway activity and protein family sharing.
- J Lin, J Qian, D Greenbaum, P Bertone, R Das, N Echols, A Senes, B Stenger, M Gerstein (2002) Nucleic Acids Res 30: 4574-82.
- Genomic analysis of membrane protein families: abundance and conserved motifs.
- Y Liu, DM Engelman, M Gerstein (2002) Genome Biol 3: research0054.
- Protein Geometry: Distances, Areas, and Volumes
- M Gerstein, F M Richards (2001) International Tables for Crystallography (Volume F, Chapter 22.1.1, pages 531-539; M Rossmann & E Arnold, editors; Dordrecht: Kluwer).
- Digging for dead genes: an analysis of the characteristics of the pseudogene population in the Caenorhabditis elegans genome.
- PM Harrison, N Echols, MB Gerstein (2001) Nucleic Acids Res 29: 818-30.
- PartsList: a web-based system for dynamically ranking protein folds based on disparate attributes, including whole-genome expression and interaction information.
- J Qian, B Stenger, CA Wilson, J Lin, R Jansen, SA Teichmann, J Park, WG Krebs, H Yu, V Alexandrov, N Echols, M Gerstein (2001) Nucleic Acids Res 29: 1750-64.
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