XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis

Sczyrba, Alexander; Beckstette, Michael; Brivanlou, Ali H.; Giegerich, Robert; Altmann, Curtis R.

XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis

Sczyrba A, Beckstette M, Brivanlou AH, Giegerich R, Altmann CR (2005)
BMC Genomics 6(1): 123.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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1471_2164_6_123.pdf

DOI

https://doi.org/10.1186/1471-2164-6-123

URN

urn:nbn:de:0070-pub-17736137

Autor*in

Sczyrba, Alexander^UniBi ; Beckstette, Michael^UniBi; Brivanlou, Ali H.; Giegerich, Robert^UniBi; Altmann, Curtis R.

Einrichtung

Technische Fakultät > AG Praktische Informatik
Technische Fakultät > AG Genominformatik
Centrum für Biotechnologie > Institut für Bioinformatik
Technische Fakultät > Computational Metagenomics
Centrum für Biotechnologie > Arbeitsgruppe R. Giegerich
Technische Fakultät > BIBI
Centrum für Biotechnologie > Arbeitsgruppe A. Sczyrba

Abstract / Bemerkung

Background: Research using the model system Xenopus laevis has provided critical insights into the mechanisms of early vertebrate development and cell biology. Large scale sequencing efforts have provided an increasingly important resource for researchers. To provide full advantage of the available sequence, we have analyzed 350,468 Xenopus laevis Expressed Sequence Tags (ESTs) both to identify full length protein encoding sequences and to develop a unique database system to support comparative approaches between X. laevis and other model systems. Description: Using a suffix array based clustering approach, we have identified 25,971 clusters and 40,877 singleton sequences. Generation of a consensus sequence for each cluster resulted in 31,353 tentative contig and 4,801 singleton sequences. Using both BLASTX and FASTY comparison to five model organisms and the NR protein database, more than 15,000 sequences are predicted to encode full length proteins and these have been matched to publicly available IMAGE clones when available. Each sequence has been compared to the KOG database and ~67% of the sequences have been assigned a putative functional category. Based on sequence homology to mouse and human, putative GO annotations have been determined. Conclusion: The results of the analysis have been stored in a publicly available database XenDB http://bibiserv.techfak.uni-bielefeld.de/xendb/. A unique capability of the database is the ability to batch upload cross species queries to identify potential Xenopus homologues and their associated full length clones. Examples are provided including mapping of microarray results and application of 'in silico' analysis. The ability to quickly translate the results of various species into 'Xenopus-centric' information should greatly enhance comparative embryological approaches. Supplementary material can be found at http://bibiserv.techfak.uni-bielefeld.de/xendb/.

Erscheinungsjahr

2005

Zeitschriftentitel

BMC Genomics

Band

Ausgabe

Art.-Nr.

123

ISSN

1471-2164

Page URI

https://pub.uni-bielefeld.de/record/1773613

Zitieren

Sczyrba A, Beckstette M, Brivanlou AH, Giegerich R, Altmann CR. XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis. BMC Genomics. 2005;6(1): 123.

Sczyrba, A., Beckstette, M., Brivanlou, A. H., Giegerich, R., & Altmann, C. R. (2005). XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis. BMC Genomics, 6(1), 123. https://doi.org/10.1186/1471-2164-6-123

Sczyrba, Alexander, Beckstette, Michael, Brivanlou, Ali H., Giegerich, Robert, and Altmann, Curtis R. 2005. “XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis”. BMC Genomics 6 (1): 123.

Sczyrba, A., Beckstette, M., Brivanlou, A. H., Giegerich, R., and Altmann, C. R. (2005). XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis. BMC Genomics 6:123.

Sczyrba, A., et al., 2005. XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis. BMC Genomics, 6(1): 123.

A. Sczyrba, et al., “XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis”, BMC Genomics, vol. 6, 2005, : 123.

Sczyrba, A., Beckstette, M., Brivanlou, A.H., Giegerich, R., Altmann, C.R.: XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis. BMC Genomics. 6, : 123 (2005).

Sczyrba, Alexander, Beckstette, Michael, Brivanlou, Ali H., Giegerich, Robert, and Altmann, Curtis R. “XenDB: Full length cDNA prediction and cross species mapping in Xenopus laevis”. BMC Genomics 6.1 (2005): 123.

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Mouse Genome Sequencing Consortium, Waterston RH, Lindblad-Toh K, Birney E, Rogers J, Abril JF, Agarwal P, Agarwala R, Ainscough R, Alexandersson M, An P, Antonarakis SE, Attwood J, Baertsch R, Bailey J, Barlow K, Beck S, Berry E, Birren B, Bloom T, Bork P, Botcherby M, Bray N, Brent MR, Brown DG, Brown SD, Bult C, Burton J, Butler J, Campbell RD, Carninci P, Cawley S, Chiaromonte F, Chinwalla AT, Church DM, Clamp M, Clee C, Collins FS, Cook LL, Copley RR, Coulson A, Couronne O, Cuff J, Curwen V, Cutts T, Daly M, David R, Davies J, Delehaunty KD, Deri J, Dermitzakis ET, Dewey C, Dickens NJ, Diekhans M, Dodge S, Dubchak I, Dunn DM, Eddy SR, Elnitski L, Emes RD, Eswara P, Eyras E, Felsenfeld A, Fewell GA, Flicek P, Foley K, Frankel WN, Fulton LA, Fulton RS, Furey TS, Gage D, Gibbs RA, Glusman G, Gnerre S, Goldman N, Goodstadt L, Grafham D, Graves TA, Green ED, Gregory S, Guigo R, Guyer M, Hardison RC, Haussler D, Hayashizaki Y, Hillier LW, Hinrichs A, Hlavina W, Holzer T, Hsu F, Hua A, Hubbard T, Hunt A, Jackson I, Jaffe DB, Johnson LS, Jones M, Jones TA, Joy A, Kamal M, Karlsson EK, Karolchik D, Kasprzyk A, Kawai J, Keibler E, Kells C, Kent WJ, Kirby A, Kolbe DL, Korf I, Kucherlapati RS, Kulbokas EJ, Kulp D, Landers T, Leger JP, Leonard S, Letunic I, Levine R, Li J, Li M, Lloyd C, Lucas S, Ma B, Maglott DR, Mardis ER, Matthews L, Mauceli E, Mayer JH, McCarthy M, McCombie WR, McLaren S, McLay K, McPherson JD, Meldrim J, Meredith B, Mesirov JP, Miller W, Miner TL, Mongin E, Montgomery KT, Morgan M, Mott R, Mullikin JC, Muzny DM, Nash WE, Nelson JO, Nhan MN, Nicol R, Ning Z, Nusbaum C, O'Connor MJ, Okazaki Y, Oliver K, Overton-Larty E, Pachter L, Parra G, Pepin KH, Peterson J, Pevzner P, Plumb R, Pohl CS, Poliakov A, Ponce TC, Ponting CP, Potter S, Quail M, Reymond A, Roe BA, Roskin KM, Rubin EM, Rust AG, Santos R, Sapojnikov V, Schultz B, Schultz J, Schwartz MS, Schwartz S, Scott C, Seaman S, Searle S, Sharpe T, Sheridan A, Shownkeen R, Sims S, Singer JB, Slater G, Smit A, Smith DR, Spencer B, Stabenau A, Stange-Thomann N, Sugnet C, Suyama M, Tesler G, Thompson J, Torrents D, Trevaskis E, Tromp J, Ucla C, Ureta-Vidal A, Vinson JP, Von Niederhausern AC, Wade CM, Wall M, Weber RJ, Weiss RB, Wendl MC, West AP, Wetterstrand K, Wheeler R, Whelan S, Wierzbowski J, Willey D, Williams S, Wilson RK, Winter E, Worley KC, Wyman D, Yang S, Yang SP, Zdobnov EM, Zody MC, Lander ES., Nature 420(6915), 2002
PMID: 12466850

Employment opportunities for non-coding RNAs.
Morey C, Avner P., FEBS Lett. 567(1), 2004
PMID: 15165889

MicroRNAs: genomics, biogenesis, mechanism, and function.
Bartel DP., Cell 116(2), 2004
PMID: 14744438

Genome wide identification and classification of alternative splicing based on EST data.
Gupta S, Zink D, Korn B, Vingron M, Haas SA., Bioinformatics 20(16), 2004
PMID: 15117759

Widespread occurrence of antisense transcription in the human genome.
Yelin R, Dahary D, Sorek R, Levanon EY, Goldstein O, Shoshan A, Diber A, Biton S, Tamir Y, Khosravi R, Nemzer S, Pinner E, Walach S, Bernstein J, Savitsky K, Rotman G., Nat. Biotechnol. 21(4), 2003
PMID: 12640466

Non-coding RNAs: the architects of eukaryotic complexity.
Mattick JS., EMBO Rep. 2(11), 2001
PMID: 11713189

The fate of duplicated major histocompatibility complex class Ia genes in a dodecaploid amphibian, Xenopus ruwenzoriensis.
Sammut B, Marcuz A, Pasquier LD., Eur. J. Immunol. 32(6), 2002
PMID: 12115642

Trans-NIH Xenopus Initiative Website
AUTHOR UNKNOWN, 2005

Xenbase Xenopus Web Resource Website
AUTHOR UNKNOWN, 2005

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