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首页> 外文期刊>Acta Physiologiae Plantarum >Influence of overexpression of the true and false alternative transcripts of calcium-dependent protein kinase CPK9 and CPK3a genes on the growth, stress tolerance, and resveratrol content in Vitis amurensis cell cultures
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Influence of overexpression of the true and false alternative transcripts of calcium-dependent protein kinase CPK9 and CPK3a genes on the growth, stress tolerance, and resveratrol content in Vitis amurensis cell cultures

机译:钙依赖性蛋白激酶CPK9和CPK3a基因真假交替转录本的过表达对葡萄果细胞生长,胁迫耐受性和白藜芦醇含量的影响

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摘要

Calcium-dependent protein kinases (CDPKs or CPKs) are important Ca2+ sensors in plants implicated in plant abiotic and biotic stress responses, e.g. in drought induced stomata closure or pathogen-induced stilbene production. We previously found that the VaCPK9 gene of Vitis amurensis was subjected to unusual post-transcriptional processing mediated by canonical splice sites leading to production of three mRNA isoforms that lacked important catalytic kinase subdomains. We also detected numerous unusual VaCPK9 and VaCPK3a cDNAs possessing short direct repeated sequences instead of canonical splice sites and suggested that these cDNAs were false alternative transcripts generated by reverse transcriptase template switching in vitro. The present study has been attempted to determine if the full-length and spliced CDPKs play a role in the grapevine growth regulation, stilbene biosynthesis, and abiotic stress adaptation. We generated transgenic V. amurensis callus cultures over-expressing different true and false VaCPK9 and VaCPK3a transcripts under control of the CaMV 35S promoter. Overexpression of the full-length VaCPK9 and VaCPK3a transcripts slightly increased biomass accumulation but did not affect resistance to abiotic stresses and biosynthesis of resveratrol (3,5,4'-trihydroxy-trans-stilbene) in the calli. Overexpression of the true alternative VaCPK9SF1, VaCPK9SF2, and VaCPK9SF3 transcripts considerably improved growth of the transgenic calli, while overexpression of the false alternative VaCPK3aSF1, VaCPK3aSF2, and VaCPK3aSF3 transcripts did not considerably influence it. The results show that the VaCPK9 and VaCPK3a genes function in growth regulation of V. amurensis but not in stilbene biosynthesis and abiotic stress tolerance. Alternative splicing of VaCPK9 may serve to reinforce the positive effect of VaCPK9 expression on biomass accumulation.
机译:钙依赖性蛋白激酶(CDPKs或CPKs)是植物中重要的Ca2 +传感器,与植物非生物和生物胁迫响应有关,例如:在干旱引起的气孔关闭或病原体引起的生成中。我们以前发现,Vmur amurensis的VaCPK9基因经历了异常的转录后加工过程,该过程由规范的剪接位点介导,导致产生缺少重要的催化激酶亚结构域的三种mRNA异构体。我们还检测到许多具有短的直接重复序列而不是规范剪接位点的不寻常的VaCPK9和VaCPK3a cDNA,并暗示这些cDNA是由体外逆转录酶模板转换产生的错误备选转录物。本研究已尝试确定全长和剪接的CDPK是否在葡萄树的生长调节,二苯乙烯生物合成和非生物胁迫适应中发挥作用。我们在CaMV 35S启动子的控制下,产生了过表达不同的真假VaCPK9和VaCPK3a转录本的转基因V. amurensis愈伤组织文化。全长VaCPK9和VaCPK3a转录本的过表达会稍微增加生物量的积累,但不会影响愈伤组织中对非生物胁迫和白藜芦醇(3,5,4'-三羟基-反式-二苯乙烯)的生物合成的抗性。真正替代的VaCPK9SF1,VaCPK9SF2和VaCPK9SF3转录本的过表达显着改善了转基因愈伤组织的生长,而错误替代的VaCPK3aSF1,VaCPK3aSF2和VaCPK3aSF3转录本的过表达并没有太大影响。结果表明,VaCPK9和VaCPK3a基因在葡萄的生长调节中起作用,而在二苯乙烯的生物合成和非生物胁迫耐受性中不起作用。 VaCPK9的可变剪接可能有助于增强VaCPK9表达对生物量积累的积极作用。

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