发育中的棉纤维细胞中MADS-box转录本可变剪接的证据。

Evidence for alternative splicing of MADS-box transcripts in developing cotton fibre cells.

作者信息

Lightfoot Damien J, Malone Katharine M, Timmis Jeremy N, Orford Sharon J

机构信息

Discipline of Genetics, School of Molecular and Biomedical Science, The University of Adelaide, Adelaide, SA, 5005, Australia.

出版信息

Mol Genet Genomics. 2008 Jan;279(1):75-85. doi: 10.1007/s00438-007-0297-y. Epub 2007 Oct 18.

DOI:10.1007/s00438-007-0297-y

PMID:17943315

Abstract

The MADS-box family of genes encodes transcription factors that have widely ranging roles in diverse aspects of plant development. In this study, four cotton MADS-box cDNA clones of the type II (MIKC) class were isolated, with phylogenetic analysis indicating that the cotton sequences are of the AGAMOUS subclass. The corresponding transcripts were detected in developing cotton fibre cells as well as in whole ovule and flower tissue, with differential expression in stems, leaves and roots. Reverse transcription PCR showed extensive alternative splicing in one of the reactions, and 11 mRNAs of different intron/exon composition and length were characterised. Sequence differences between the transcripts indicated that they could not be derived from the same pre-mRNA and that the sequenced transcript pool was derived from two distinct MADS-box genes. Several of the alternatively spliced transcripts potentially encoded proteins with altered K-domains and/or C-terminal regions and the variant proteins may have altered cellular roles. This work is the first that describes MADS-box gene expression in elongating cotton fibres and adds to a growing body of evidence for the prevalence of alternative splicing in the expression of MADS-box and other genes.

摘要

MADS-box基因家族编码转录因子，这些转录因子在植物发育的各个方面发挥着广泛的作用。在本研究中，分离出了4个II型（MIKC）棉花MADS-box cDNA克隆，系统发育分析表明棉花序列属于AGAMOUS亚类。在发育中的棉纤维细胞以及整个胚珠和花组织中检测到了相应的转录本，并且在茎、叶和根中存在差异表达。逆转录PCR显示其中一个反应中存在广泛的可变剪接，鉴定出了11种不同内含子/外显子组成和长度的mRNA。转录本之间的序列差异表明它们并非来自同一个前体mRNA，并且测序的转录本库来自两个不同的MADS-box基因。几种可变剪接的转录本可能编码K结构域和/或C末端区域发生改变的蛋白质，这些变体蛋白质可能具有改变的细胞功能。这项工作首次描述了MADS-box基因在伸长的棉纤维中的表达，并为MADS-box基因和其他基因表达中普遍存在可变剪接这一越来越多的证据增添了内容。

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发育中的棉纤维细胞中MADS-box转录本可变剪接的证据。

Evidence for alternative splicing of MADS-box transcripts in developing cotton fibre cells.

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