Expression of P-Type ATPases of Marine Green Microalga Dunaliella maritima under Hyperosmotic Salt Shock

Khramov D. E.; Matalin D. A.; Karpichev I. V; Balnokin Y. V; Popova L. G.

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Expression of P-Type ATPases of Marine Green Microalga Dunaliella maritima under Hyperosmotic Salt Shock

机译：海洋绿色微藻猝灭下海洋绿色微藻幼儿园静脉疟原虫的表达

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Partial sequences of P-type ATPases were cloned from the marine microalgae Dunaliella maritima, two putative H+-ATPases (DmHA1 and DmHA2) and two putative Ca2+-ATPases (DmCA1 and DmCA2). The probable functions of the cloned proteins were suggested on the basis of their primary structure similarity with the proteins whose functions have been already characterized. The transcriptional response of the cloned D. maritima ATPase genes to a sharp increase in the NaCl concentration in the culture medium (from 100 to 500 mM) was investigated by quantitative RT-PCR. Hyperosmotic salt shock led to a significant increase in the DmHA2 expression and to a slight increase in the DmCA2 expression, whereas the expression of the two other ATPases, DmHA1 and DmCA1, was decreased. These data indicate that the DmHA2 ATPase is involved in maintenance of ion homeostasis in D. maritima cells under hyperosmotic salt shock.

机译：将p型ATP酶的部分序列从海洋Microalgae Dunaliella Maritima，两个推定的H + -ATP酶（DMHA1和DMHA2）和两个推定的CA2 + -ATP酶（DMCA1和DMCA2）中克隆。克隆蛋白的可能函数是根据其主要结构相似性的，其与已经表征的蛋白质相似。通过定量RT-PCR研究克隆的D.Maritima ATP酶基因对培养基（100至500mm）中NaCl浓度急剧增加的急剧响应。 Hypermost盐休克导致DMHA2表达的显着增加，并且DMCA2表达的轻微增加，而另外两个ATP酶的表达，DMHA1和DMCA1的表达降低。这些数据表明，DMHA2 ATPase涉及D.Maritima细胞在Hypermotic Salt Shock下的D. Maritima细胞中的维持。

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《Doklady biochemistry & biophysics》 |2019年第sepaaocta期|327-331|共5页
作者
Khramov D. E.; Matalin D. A.; Karpichev I. V; Balnokin Y. V; Popova L. G.;
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Russian Acad Sci Timiryazev Inst Plant Physiol Moscow 127276 Russia|Moscow MV Lomonosov State Univ Fac Biol Moscow 119234 Russia;

Russian Acad Sci Timiryazev Inst Plant Physiol Moscow 127276 Russia;

Russian Acad Sci Timiryazev Inst Plant Physiol Moscow 127276 Russia;

Russian Acad Sci Timiryazev Inst Plant Physiol Moscow 127276 Russia;

Russian Acad Sci Timiryazev Inst Plant Physiol Moscow 127276 Russia;

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1. In silico Analyses of Transcriptomes of the Marine Green Microalga Dunaliella tertiolecta: Identification of Sequences Encoding P-type ATPases [J] . L. G. Popova, D. V. Belyaev, A. V. Shuvalov, Molecular Biology . 2018,第4期

机译：在海洋绿色微藻的转录组的硅分析中<重点型=“斜体”> Dunaliella Tertiolecta ：鉴定编码p型ATP酶的序列
2. Responses of photosynthetic apparatus of the halotolerant microalga Dunalliella maritima to hyperosmotic salt shock [J] . Zakhozhii I. G., Matalin D. A., Popova L. G., Russian Journal of Plant Physiology . 2012,第1期

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3. Na~+-Transporting ATPase in the Plasma Membrane of Halotolerant Microalga Dunaliella maritima Operates as a Na~+ Uniporter [J] . L. G. Popova, A. G. Kornilova, G. A. Shumkova, Russian Journal of Plant Physiology . 2006,第4期

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4. Effects of Triphenyltin Chloride on Growth of the Marine Microalga Dunaliella salina in Continuous Culture [C] . International symposium on progress and prospect of marine biotechnology . 1999

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5. A systematic study of expression and function of Caenorhabditis elegans genes encoding P-type ATPases in subfamily IV, the group of putative transbilayer amphipath transporters. [D] . Lyssenko, Nicholas N. 2007

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机译：耐盐微藻海藻Dunaliella maritima质膜中电Na +转运ATPase的功能鉴定

Expression of P-Type ATPases of Marine Green Microalga Dunaliella maritima under Hyperosmotic Salt Shock

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