Increase of functional diversity by alternative splicing

被引：187

作者：

Kriventseva, EV

Koch, I

Apweiler, R

Vingron, M

Bork, P

Gelfand, MS

Sunyaev, S

机构：

[1] EBI, EMBL, Cambridge CB10 1SD, England

[2] Max Planck Inst Mol Genet, D-14195 Berlin, Germany

[3] Max Delbruck Ctr Mol Med, D-13122 Berlin, Germany

[4] State Sci Ctr GosNllGenet, Moscow 113545, Russia

[5] European Mol Biol Lab, D-69117 Heidelberg, Germany

来源：

TRENDS IN GENETICS | 2003年 / 19卷 / 03期

关键词：

D O I：

10.1016/S0168-9525(03)00023-4

中图分类号：

Q3 [遗传学];

学科分类号：

071007 ; 090102 ;

摘要：

A large-scale analysis of protein isoforms arising from alternative splicing shows that alternative splicing tends to insert or delete complete protein domains more frequently than expected by chance, whereas disruption of domains and other structural modules is less frequent. If domain regions are disrupted, the functional effect, as predicted from 3D structure, is frequently equivalent to removal of the entire domain. Also, short alternative splicing events within domains, which might preserve folded structure, target functional residues more frequently than expected. Thus, it seems that positive selection has had a major role in the evolution of alternative splicing.

引用

收藏

页码：124 / 128

页数：5

相关论文

共 24 条

[11] Alternative splicing of human genes -: more the rule than the exception? [J].

Hanke, J ;

Brett, D ;

Zastrow, I ;

Aydin, A ;

Delbrück, S ;

Lehmann, G ;

Luft, F ;

Reich, J ;

Bork, P .

TRENDS IN GENETICS, 1999, 15 (10) :389-390

[12] Gene structure prediction and alternative splicing analysis using genomically aligned ESTs [J].

Kan, ZY ;

Rouchka, EC ;

Gish, WR ;

States, DJ .

GENOME RESEARCH, 2001, 11 (05) :889-900

[13] VARSPLIC: alternatively-spliced protein sequences derived from SWISS-PROT and TrEMBL [J].

Kersey, P ;

Hermjakob, H ;

Apweiler, R .

BIOINFORMATICS, 2000, 16 (11) :1048-1049

[14] Recent improvements to the SMART domain-based sequence annotation resource [J].

Letunic, I ;

Goodstadt, L ;

Dickens, NJ ;

Doerks, T ;

Schultz, J ;

Mott, R ;

Ciccarelli, F ;

Copley, RR ;

Ponting, CP ;

Bork, P .

NUCLEIC ACIDS RESEARCH, 2002, 30 (01) :242-244

[15] A novel extracellular domain variant of the human integrin α7 subunit generated by alternative intron splicing [J].

Leung, E ;

Lim, SP ;

Berg, R ;

Yang, Y ;

Ni, J ;

Wang, SX ;

Krissansen, GW .

BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1998, 243 (01) :317-325

[16] Identification of three new alternate human kallikrein 2 transcripts: Evidence of long transcript and alternative splicing [J].

Liu, XF ;

Essand, M ;

Vasmatzis, G ;

Lee, B ;

Pastan, I .

BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 1999, 264 (03) :833-839

[17] Alternative splicing of pre-mRNA: Developmental consequences and mechanisms of regulation [J].

Lopez, AJ .

ANNUAL REVIEW OF GENETICS, 1998, 32 :279-305

[18] Frequent alternative splicing of human genes [J].

Mironov, AA ;

Fickett, JW ;

Gelfand, MS .

GENOME RESEARCH, 1999, 9 (12) :1288-1293

[19] A genomic view of alternative splicing [J].

Modrek, B ;

Lee, C .

NATURE GENETICS, 2002, 30 (01) :13-19

[20] Genome-wide detection of alternative splicing in expressed sequences of human genes [J].

Modrek, B ;

Resch, A ;

Grasso, C ;

Lee, C .

NUCLEIC ACIDS RESEARCH, 2001, 29 (13) :2850-2859