===== ===== ===== ===== ===== ===== ===== ===== ===== ===== ===== ===== THIS DATABASE MAY BE COPIED AND REDISTRIBUTED WITHOUT PERMISSION ON THE CONDITION THAT ALL THE STATEMENTS IN THIS RELEASE NOTE ARE REPRODUCED IN EACH COPY. ===== ===== ===== ===== ===== ===== ===== ===== ===== ===== ===== ===== DDBJ Amino Acid Sequence Database (DAD) Release 42.0 January 11, 2008 including 11,715,518 entries, 2,995,558,433 residues This is release 42.0 of DDBJ Amino Acid Sequence Database (DAD). This database has been produced by extracting all translated sequences from the release 72.0 of the INSDC (International Nucleotide Sequence Database Collaboration, DDBJ/EMBL/GenBank) entries (December 2007). 1. DAD files DAD entries are classified into 21 categories according to the classification of the original nucleotide sequences. Please refer to the release note of the DDBJ release for details (filename: ddbjrel.txt). Also,there are two types of DAD files for each division; files with suffix ".DAD" in the DAD standard format, and those with suffix ".DAD.fasta" in a FASTA-compatible format. [DDBJ release note] ftp://ftp.ddbj.nig.ac.jp/database/ddbj/ddbjrel.txt 2. Announcement for changes in the present release Deletion of E-mail address, phone and fax numbers from DAD flat file To follow the Japanese law of protecting personal information, DDBJ delete both phone and fax numbers, and E-mail address from the flat files of entries submitted to DDBJ. Also, it would be helpful to protect DAD releases against SPAM mail senders. DDBJ retrofitted most of all entries submitted to DDBJ, not to GenBank or EMBL, by the present release. In previous releases, the submitter information was described in JOURNAL line at REFERENCE 1 as, ------------------------------------------------------------------------------- REFERENCE 1 (bases 1 to 1200) AUTHORS Mishima,T. TITLE Direct Submission JOURNAL Submitted (01-Jan-1990) to the DDBJ/EMBL/GenBank databases. Taro Mishima, DNA Data Bank of Japan, National Institute of Genetics; 1111, Yata, Mishima, Shizuoka 411-8540, Japan (E-mail:ddbj@ddbj.nig.ac.jp, URL:http://www.ddbj.nig.ac.jp/, Tel:81-12-345-6789, Fax:81-12-345-9876) ------------------------------------------------------------------------------- After the deletion or the information in question, DAD flat file is either one of the following two types; Type 1: Phone and fax numbers and E-mail address are deleted. ------------------------------------------------------------------------------- REFERENCE 1 (bases 1 to 1200) AUTHORS Mishima,T. TITLE Direct Submission JOURNAL Submitted (01-Jan-1990) to the DDBJ/EMBL/GenBank databases. Contact:Taro Mishima DNA Data Bank of Japan, National Institute of Genetics; 1111, Yata, Mishima, Shizuoka 411-8540, Japan URL :http://www.ddbj.nig.ac.jp/ ------------------------------------------------------------------------------- Type 2: When the submitters wish to keep their contact information disclosed, it is described as, ------------------------------------------------------------------------------- REFERENCE 1 (bases 1 to 1200) AUTHORS Mishima,T. TITLE Direct Submission JOURNAL Submitted (01-Jan-1990) to the DDBJ/EMBL/GenBank databases. Contact:Taro Mishima DNA Data Bank of Japan, National Institute of Genetics; 1111, Yata, Mishima, Shizuoka 411-8540, Japan URL :http://www.ddbj.nig.ac.jp/ E-mail :ddbj@ddbj.nig.ac.jp Phone :81-12-345-6789 Fax :81-12-345-9876 ------------------------------------------------------------------------------- 3. Announcement for the forthcoming changes Nothing particular. 4. Format of DAD entries The standard format of DAD is almost the same as that of the DDBJ nucleotide sequence database except for those described below. Accession numbers of the DAD entries are written in the lines labeled as "ACCESSION." An accession number of DAD is comprised of a DDBJ accession number and an integer that begins with 1. These two numbers are combined by a hyphen (-). For example, two amino acid sequences extracted from a DDBJ entry D12345 respectively have accession numbers of D12345-1 and D12345-2. The number is useful for identifying a DAD entry. An amino acid sequence begins from the next line of "BEGIN." Up to sixty amino acids are written in one line. Following the amino acid sequence, there is a double slash (//) which means the end of the entry. LOCUS line contains locus name, length of protein, molecular type (this is always "PRT"), division name, and date of release of DNA counterpart. DEFINITION line contains species name and protein name. The other parts of a DAD entry, including FEATURES, are almost the same as those of the corresponding DDBJ entry. 5. A sample of DAD entries Below is a typical DAD entry. This might be useful for understanding its format and contents. ----- ----- ----- ----- sample begin ----- ----- ----- ----- LOCUS BAA22986.1 220 aa PRT HUM 28-OCT-1997 DEFINITION Homo sapiens RVP1 protein. ACCESSION AB000714-1 PROTEIN_ID BAA22986.1 SOURCE Homo sapiens ORGANISM Homo sapiens Eukaryotae; Metazoa; Chordata; Vertebrata; Mammalia; Eutheria; Primates; Catarrhini; Hominidae; Homo. REFERENCE 1 (bases 1 to 1250) AUTHORS Katahira,J. TITLE Direct Submission JOURNAL Submitted (26-JAN-1997) to the DDBJ/EMBL/GenBank databases. Contact:Jun Katahira Institute for Microbial Diseases, Osaka University, Department of Bacterial Toxinology; 3-1, Yamadaoka, Suita, Osaka 565, Japan REFERENCE 2 AUTHORS Katahira,J., Sugiyama,H., Inoue,N., Horiguchi,Y., Matsuda,M. and Sugimoto,N. TITLE Clostridium perfringens enterotoxin utilizes two structurally related membrane proteins as functional receptors in vivo JOURNAL J. Biol. Chem. 272, 26652-26658 (1997) COMMENT FEATURES Qualifiers source /db_xref="H-InvDB:HIT000057926" /mol_type="mRNA" /organism="Homo sapiens" /tissue_lib="lung" protein /gene="hRVP1" /transl_table=1 BEGIN 1 MSMGLEITGT ALAVLGWLGT IVCCALPMWR VSAFIGSNII TSQNIWEGLW MNCVVQSTGQ 61 MQCKVYDSLL ALPQDLQAAR ALIVVAILLA AFGLLVALVG AQCTNCVQDD TAKAKITIVA 121 GVLFLLAALL TLVPVSWSAN TIIRDFYNPV VPEAQKREMG AGLYVGWAAA ALQLLGGALL 181 CCSCPPREKK YTATKVVYSA PRSTGPGASL GTGYDRKDYV // ----- ----- ----- ----- sample end ----- ----- ----- ----- 6. Release history ------------------ Since release 40 ------------------ The CON division has been included. CON; Contig / Constructed To conjugate a series of entries, such as those submitted from a genome project, each of the three data banks constructs an entry and assign an accession number to a large scale sequence dataset. Such entries are classified into the CON division. ------------------ Since release 38 ------------------ From the present release, we change the maximum file size to 1.5 GB, because the network capacity has been remarkably increased. Each file named as ddbj***##.DAD has at most 1.5 GB storage capacity. See also the sections, '7. Statistics of DAD'. ------------------ Since release 32 ------------------ Introduction of ENV division : Recently, the submissions of the sequences derived from environmental samples have rapidly increased. To accommodate such submissions, a new division, ENV, has been created. This division contains the sequences obtained via direct molecular isolation such as PCR, DGGE, or any anonymous method. In the past, the sequences derived from environmental samples belonged to taxonomic divisions, mainly BCT. At DDBJ, the retrofit to transfer relevant entries from taxonomic divisions to the ENV division starts in the present release, and ends by the next periodical release. Please note that during this transitional period, some entries to be eventually placed in the ENV division will be found in other divisions. ------------------ Since release 30 ------------------ "H-InvDB" has been added to db_xref(cross-reference) as a qualifier key. The following is an example. FEATURES Location/Qualifiers source 1..5589 /clone="hf00223s1" /clone_lib="pBluescriptII SK plus" /db_xref="H-InvDB:HIT000000001" ------------------ Since release 29 ------------------ The GSS division has been included since release 29. GSS stands for the Genome Survey Sequence, which is similar to EST, except that GSS is genomic DNA whereas EST is cDNA. ------------------ Since release 21 ------------------ 1) Some information on introns has been added. It is given as "intron_pos" in the Feature/Qualifiers. Examples: intron_pos 142:1 (2/12) means that the 2nd intron among 12 in total is located between the 1st and 2nd bases of the 142th codon (amino acid residue). intron_pos 228:0 (4/12) means that the 4th intron among 12 in total is located between the 227th and 228th codons (between the 3rd base of the 227th codon and the 1st base of the 228th codon). 2) the Locus line has been changed. The following is an example and its explanation: LOCUS BAA21794.1 263 aa PRT BCT 05-FEB-1999 Positions Contents --------- -------- 01-05 'LOCUS' 06-12 spaces 13-28 Locus name 29-29 space 30-40 Length of sequence, right-justified 41-41 space 42-43 'aa' 44-47 spaces 48-53 'PRT' 54-64 spaces 65-67 Division code 68-68 space 69-79 Date, in the form DD-MMM-YYYY (e.g., 15-MAR-1991) --------------------- 3) TPA data have been provided as a separate file (ddbjtpa.DAD). 7. Statistics of DAD The following are statistics of this release of DAD. total number of entries 11,715,518 total length of sequences 2,995,558,433 aa average length 255 aa name of longest sequence CP000108-608 PID:ABB27887.1 length of longest sequence 36,805 aa (CP000108-608) ========================================================================= file name no. of entries no. of amino acids file size ========================================================================= ddbjbct1.DAD 503,935 152,366,919 1,500,001,799 ddbjbct2.DAD 526,688 159,708,785 1,500,000,383 ddbjbct3.DAD 491,348 158,884,339 1,500,000,251 ddbjbct4.DAD 493,506 154,461,605 1,500,001,323 ddbjbct5.DAD 278,877 82,122,970 736,697,025 ddbjcon1.DAD 450,713 137,284,039 1,500,001,560 ddbjcon10.DAD 391,730 68,369,606 1,500,000,403 ddbjcon11.DAD 396,467 97,563,150 1,500,003,551 ddbjcon12.DAD 391,847 68,415,699 1,500,003,420 ddbjcon13.DAD 391,781 68,364,275 1,500,001,884 ddbjcon14.DAD 393,200 76,424,885 1,500,000,440 ddbjcon15.DAD 392,398 67,158,049 1,500,000,189 ddbjcon16.DAD 389,677 74,119,330 1,500,003,237 ddbjcon17.DAD 386,099 82,267,025 1,500,001,988 ddbjcon18.DAD 242,926 47,923,261 938,970,374 ddbjcon2.DAD 386,280 81,171,145 1,500,001,509 ddbjcon3.DAD 386,500 80,915,185 1,500,000,084 ddbjcon4.DAD 382,289 90,408,626 1,500,001,856 ddbjcon5.DAD 381,148 92,895,349 1,500,003,020 ddbjcon6.DAD 391,509 94,442,309 1,500,001,068 ddbjcon7.DAD 344,146 106,608,711 1,500,000,494 ddbjcon8.DAD 321,604 87,471,551 1,500,000,087 ddbjcon9.DAD 386,816 68,767,809 1,500,003,187 ddbjenv.DAD 67,430 13,146,054 122,722,082 ddbjest.DAD 1,164 153,938 2,415,258 ddbjgss.DAD 61 12,916 122,434 ddbjhtc.DAD 78,035 25,941,889 345,507,403 ddbjhtg.DAD 28,473 13,506,232 91,388,827 ddbjhum.DAD 244,405 79,736,268 639,874,897 ddbjinv.DAD 388,276 123,017,153 1,041,847,735 ddbjmam.DAD 79,334 20,705,448 153,434,337 ddbjpat.DAD 56,317 17,881,527 76,051,462 ddbjphg.DAD 36,579 7,634,656 80,545,857 ddbjpln1.DAD 429,962 152,108,493 1,500,002,871 ddbjpln2.DAD 163,257 51,577,438 367,953,727 ddbjpri.DAD 34,472 7,464,143 72,430,783 ddbjrod.DAD 134,261 48,891,720 366,301,917 ddbjsts.DAD 9 812 20,009 ddbjsyn.DAD 36,438 12,300,237 93,705,128 ddbjtpa.DAD 5,675 1,916,139 11,878,679 ddbjuna.DAD 461 103,645 871,905 ddbjvrl.DAD 583,551 153,956,061 1,131,700,325 ddbjvrt.DAD 245,874 67,389,042 551,940,234 ========================================================================= total 11,715,518 2,995,558,433 39,826,415,002 ========================================================================= DNA Data Bank of Japan Center for Information Biology and DNA Data Bank of Japan National Institute of Genetics Research Organization of Information and Systems Mishima 411-8540, Japan Phone: +81 55 981 6853 FAX: +81 55 981 6849 E-mail: ddbj@ddbj.nig.ac.jp (for general inquiry) WWW: http://www.ddbj.nig.ac.jp/ (for DDBJ WWW server)