Tropomyosin Isoform Diversity in the Cynomolgus Monkey Heart and Skeletal Muscles Compared to Human Tissues.

IF 3.4 Q2 BIOCHEMICAL RESEARCH METHODS
Dipak K Dube, Syamalima Dube, Lynn Abbott, Omar Elsekaily, Samender S Randhawa, Jean M Sanger, Joseph W Sanger, Bernard J Poiesz
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Abstract

Old world monkeys separated from the great apes, including the ancestor of humans, about 25 million years ago, but most of the genes in humans and various nonhuman primates are quite similar even though their anatomical appearances are quite different. Like other mammals, primates have four tropomyosin genes (TPM1, TPM2, TPM3, and TPM4) each of which generates a multitude of TPM isoforms via alternative splicing. Only TPM1 produces two sarcomeric isoforms (TPM1α and TPM1κ), and TPM2, TPM3, and TPM4 each generate one sarcomeric isoform. We have cloned and sequenced TPM1α, TPM1κ, TPM2α, TPM3α, and TPM4α with RNA from cynomolgus (Cyn) monkey hearts and skeletal muscle. We believe this is the first report of directly cloning and sequencing of these monkey transcripts. In the Cyn monkey heart, the rank order of TPM isoform expression is TPM1α > TPM2α > TPM1κ > TPM3α > TPM4α. In the Cyn monkey skeletal muscle, the rank order of expression is TPM1α > TPM2α > TPM3α > TPM1κ > TPM4α. The major differences in the human heart are the increased expression of TPM1κ, although TPM1α is still the dominant transcript. In the Cyn monkey heart, the only sarcomeric TPM isoform at the protein level is TPM1α. This is in contrast to human hearts where TPM1α is the major sarcomeric isoform but a lower quantity of TPM1κ, TPM2α, and TPM3α is also detected at the protein level. These differences of tropomyosin and/or other cardiac protein expression in human and Cyn monkey hearts may reflect the differences in physiological activities in daily life.

Abstract Image

Abstract Image

Abstract Image

与人类组织相比,食蟹猴心脏和骨骼肌原肌球蛋白异构体多样性。
大约2500万年前,旧大陆的猴子从包括人类祖先在内的类人猿中分离出来,但人类和各种非人类灵长类动物的大部分基因非常相似,尽管他们的解剖外观大不相同。与其他哺乳动物一样,灵长类动物也有四种原肌球蛋白基因(TPM1、TPM2、TPM3和TPM4),每一种基因都可以通过选择性剪接产生大量的TPM亚型。只有TPM1产生两种肌肉异构体(TPM1α和TPM1κ), TPM2、TPM3和TPM4各产生一种肌肉异构体。我们克隆了食蟹猴(Cyn)心脏和骨骼肌的TPM1α、TPM1κ、TPM2α、TPM3α和TPM4α,并对其进行了RNA测序。我们相信这是第一个直接克隆和测序这些猴子转录本的报告。在Cyn猴心脏中,TPM亚型的表达顺序为TPM1α > TPM2α > TPM1κ > TPM3α > TPM4α。在Cyn猴骨骼肌中,TPM1α > TPM2α > TPM3α > TPM1κ > TPM4α。人类心脏的主要差异是TPM1κ的表达增加,尽管TPM1α仍然是主要的转录物。在Cyn猴心脏中,蛋白水平上唯一的肌共聚TPM异构体是TPM1α。这与人类心脏形成对比,在人类心脏中,TPM1α是主要的肌肉异构体,但在蛋白质水平上也检测到较低数量的TPM1κ、TPM2α和TPM3α。这些原肌球蛋白和/或其他心脏蛋白在人和猴子心脏中的表达差异可能反映了日常生活中生理活动的差异。
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来源期刊
Biochemistry Research International
Biochemistry Research International BIOCHEMICAL RESEARCH METHODS-
CiteScore
6.30
自引率
0.00%
发文量
27
审稿时长
14 weeks
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