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Molecular biology databases

Molecular biology databases. Based on Chapter 2 of Post-genome Informatics by Minoru Kanehisa, Oxford University Press, 2000 2.1 History 2.2 Information Technology

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Molecular biology databases

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  1. Molecular biology databases Based on Chapter 2 of Post-genome Informatics by Minoru Kanehisa, Oxford University Press, 2000 2.1 History 2.2 Information Technology 2.3 New generation databases

  2. Evolution of molecular biology databases

  3. The addresses for the major databases

  4. New generation of molecular biology databases

  5. Example of sequence database entry for Genbank LOCUS DRODPPC 4001 bp INV 15-MAR-1990 DEFINITION D.melanogaster decapentaplegic gene complex (DPP-C), complete cds. ACCESSION M30116 KEYWORDS . SOURCE D.melanogaster, cDNA to mRNA. ORGANISM Drosophila melanogaster Eurkaryote; mitochondrial eukaryotes; Metazoa; Arthropoda; Tracheata; Insecta; Pterygota; Diptera; Brachycera; Muscomorpha; Ephydroidea; Drosophilidae; Drosophilia. REFERENCE 1 (bases 1 to 4001) AUTHORS Padgett, R.W., St Johnston, R.D. and Gelbart, W.M. TITLE A transcript from a Drosophila pattern gene predicts a protein homologous to the transforming growth factor-beta family JOURNAL Nature 325, 81-84 (1987) MEDLINE 87090408 COMMENT The initiation codon could be at either 1188-1190 or 1587-1589 FEATURES Location/Qualifiers source 1..4001 /organism=“Drosophila melanogaster” /db_xref=“taxon:7227” mRNA <1..3918 /gene=“dpp” /note=“decapentaplegic protein mRNA” /db_xref=“FlyBase:FBgn0000490” gene 1..4001 /note=“decapentaplegic” /gene=“dpp” /allele=“” /db_xref=“FlyBase:FBgn0000490” CDS 1188..2954 /gene=“dpp” /note=“decapentaplegic protein (1188 could be 1587)” /codon_start=1 /db_xref=“FlyBase:FBgn0000490” /db_xref=“PID:g157292” /translation=“MRAWLLLLAVLATFQTIVRVASTEDISQRFIAAIAPVAAHIPLA SASGSGSGRSGSRSVGASTSTALAKAFNPFSEPASFSDSDKSHRSKTNKKPSKSDANR …………………… LGYDAYYCHGKCPFPLADHFNSTNAVVQTLVNNMNPGKVPKACCVPTQLDSVAMLYL NDQSTBVVLKNYQEMTBBGCGCR” BASE COUNT 1170 a 1078 c 956 g 797 t ORIGIN 1 gtcgttcaac agcgctgatc gagtttaaat ctataccgaa atgagcggcg gaaagtgagc 61 cacttggcgt gaacccaaag ctttcgagga aaattctcgg acccccatat acaaatatcg 121 gaaaaagtat cgaacagttt cgcgacgcga agcgttaaga tcgcccaaag atctccgtgc 181 ggaaacaaag aaattgaggc actattaaga gattgttgtt gtgcgcgagt gtgtgtcttc 241 agctgggtgt gtggaatgtc aactgacggg ttgtaaaggg aaaccctgaa atccgaacgg 301 ccagccaaag caaataaagc tgtgaatacg aattaagtac aacaaacagt tactgaaaca 361 gatacagatt cggattcgaa tagagaaaca gatactggag atgcccccag aaacaattca 421 attgcaaata tagtgcgttg cgcgagtgcc agtggaaaaa tatgtggatt acctgcgaac 481 cgtccgccca aggagccgcc gggtgacagg tgtatccccc aggataccaa cccgagccca 541 gaccgagatc cacatccaga tcccgaccgc agggtgccag tgtgtcatgt gccgcggcat 601 accgaccgca gccacatcta ccgaccaggt gcgcctcgaa tgcggcaaca caattttcaa …………………………. 3841 aactgtataa acaaaacgta tgccctataa atatatgaat aactatctac atcgttatgc 3901 gttctaagct aagctcgaat aaatccgtac acgttaatta atctagaatc gtaagaccta 3961 acgcgtaagc tcagcatgtt ggataaatta atagaaacga g //

  6. Example of sequence database entry for SWISS-PROT ID DECA_DROME STANDARD; PRT; 588AA. AC P07713; DT 01-APR-1988 (REL. 07, CREATED) DT 01-APR-1988 (REL. 07, LAST SEQUENCE UPDATE) DT 01-FEB-1995 (REL. 31, LAST ANNOTATION UPDATE) DE DECAPENTAPLEGIC PROTEIN PRECURSOR (DPP-C PROTEIN). GN DPP. OS DROSOPHILA MELANOGASTER (FRUIT FLY). OC EUKARYOTA; METAZOA; ARTHROPODA; INSECTA; DIPTERA. RN [1] RP SEQUENCE FROM N.A. RM 87090408 RA PADGETT R.W., ST JOHNSTON R.D., GELBART W.M.; RL NATURE 325:81-84 (1987) RN [2] RP CHARACTERIZATION, AND SEQUENCE OF 457-476. RM 90258853 RA PANGANIBAN G.E.F., RASHKA K.E., NEITZEL M.D., HOFFMANN F.M.; RL MOL. CELL. BIOL. 10:2669-2677(1990). CC -!- FUNCTION: DPP IS REQUIRED FOR THE PROPER DEVELOPMENT OF THE CC EMBRYONIC DOORSAL HYPODERM, FOR VIABILITY OF LARVAE AND FOR CELL CC VIABILITY OF THE EPITHELIAL CELLS IN THE IMAGINAL DISKS. CC -!- SUBUNIT: HOMODIMER, DISULFIDE-LINKED. CC -!- SIMILARITY: TO OTHER GROWTH FACTORS OF THE TGF-BETA FAMILY. DR EMBL; M30116; DMDPPC. DR PIR; A26158; A26158. DR HSSP; P08112; 1TFG. DR FLYBASE; FBGN0000490; DPP. DR PROSITE; PS00250; TGF_BETA. KW GROWTH FACTOR; DIFFERENTIATION; SIGNAL. FT SIGNAL 1 ? POTENTIAL. FT PROPEP ? 456 FT CHAIN 457 588 DECAPENTAPLEGIC PROTEIN. FT DISULFID 487 553 BY SIMILARITY. FT DISULFID 516 585 BY SIMILARITY. FT DISULFID 520 587 BY SIMILARITY. FT DISULFID 552 552 INTERCHAIN (BY SIMILARITY). FT CARBOHYD 120 120 POTENTIAL. FT CARBOHYD 342 342 POTENTIAL. FT CARBOHYD 377 377 POTENTIAL. FT CARBOHYD 529 529 POTENTIAL. SQ SEQUENCE 588 AA; 65850MW; 1768420 CN; MRAWLLLLAV LATFQTIVRV ASTEDISQRF IAAIAPVAAH IPLASASGSG SGRSGSRSVG ASTSTAGAKA FNRFSEPASF SDSDKSHRSK TNKKPSKSDA NRQFNEVHKP RTDQLENSKN KSKQLVNKPN HNKMAVKEQR SHHKKSHHHR SHQPKQASAS TESHQSSSIE SIFVEEPTLV LDREVASINV PANAKAIIAE QGPSTYSKEA LIKDKLKPDP STYLVEIKSL LSLFNMKRPP KIDRSKIIIP EPMKKLYAEI MGHELDSVNI PKPGLLTKSA NTVRSFTHKD SKIDDRFPHH HRFRLHFDVK SIPADEKLKA AELQLTRDAL SQQVVASRSS ANRTRYQBLV YDITRVGVRG QREPSYLLLD TKTBRLNSTD TVSLDVQPAV DRWLASPQRN YGLLVEVRTV RSLKPAPHHH VRLRRSADEA HERWQHKQPL LFTYTDDGRH DARSIRDVSG GEGGGKGGRN KRHARRPTRR KNHDDTCRRH SLYVDFSDVG WDDWIVAPLG YDAYYCHGKC PFPLADHRNS TNHAVVQTLV NNMNPGKBPK ACCBPTQLDS VAMLYLNDQS TVVLKNYQEM TVVGCGCR

  7. Functional classification of E. coli genes according to Monica Riley

  8. Relational database. A table (relation) is a set and the three basic table operations shown here are extensions of the standard set operations. Volume Journal MUID Pages Year Paper 1 Paper 2 Paper 3 Paper 4 . . . . SELECT PROJECT Volume Journal MUID Author Pages Year JOIN Author MUID Author 1-1 Author 1-2 Author 2-1 Author 2-2 Author 2-3 Author 3-1 . . . .

  9. A history of database technology development Relational database (Codd, 1970) Object-oriented Programming (Kay, 1972) Logic programming (Kowalski, 1972) Object-oriented Database (1986) Deductive database\ (1977) Deductive, object- Oriented database (1989)

  10. Multimedia in GenomeNet

  11. Pancreatic trypsin inhibitor PDB: 4PTI ribbon model and variant with cylinder for alpha helix (figures from PDB)

  12. The periodic table of chemical elements where the shaded elements are those normally found in biology.

  13. Biologically important classes of organic compounds derived from the six basic elements

  14. The 20 common amino acids

  15. BLO(ck)SU(bstitution)M(atrix)(Henikoff & Henikoff 1992) • Derived from a set (2000) of aligned and ungapped regions from protein families; emphasizing more on chemical similarities (versus how easy it is to mutate from one residue to another). BLOSUMx is derived from the set of segments of x% identity. BLOSUM62 Matrix, log-odds representation

  16. Substitution/Scoring Matrices PAM1: expected number of mutation = 1% • Pam matrices (Dayhoff et al. 1978) --- phylogeny-based. PAM250 matrix, log-odds representation

  17. d1 d2 d3 d4 I0 I1 I2 I3 I4 m0 m1 m2 m3 m4 m5 End Start A hidden Markov model for sequence analysis m= match state (output), I = insert state (output), d= delete state (no output)

  18. Globin fold  protein myoglobin PDB: 1MBN

  19.  sandwich  protein immunoglobulin PDB: 7FAB

  20. TIM barrel  /  protein Triose phosphate IsoMerase PDB: 1TIM

  21. A fold in  + protein ribonuclease A PDB: 7RSA

  22. 434 Cro protein complex (phage) PDB: 3CRO

  23. Zinc finger DNA recognition (Drosophila) PDB: 2DRP ..YRCKVCSRVY THISNFCRHY VTSH...

  24. Leucine zipper (yeast) PDB: 1YSA ..RA RKLQRMKQLE DKVEE LLSKN YHLENEVARL...

  25. The orthologue group table for F1-F0 ATP synthase (upper) and V-type ATP synthase (lower).

  26. Reactions and interactions Note notion of Enzyme Commission (EC) number. Biochemical pathways Genome diversity

  27. Bacteria Archae Protists Eukaryotes Plants Fungi Animals The tree of life showing the relationship of archaea, bacteria, and eukaryotes, as well as the relationship of fungi, plants and animals.

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