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引用本文:孙国华,吉成龙,杨建敏,王卫军,任利华.刺参(Apostichopus japonicus)高温胁迫应答基因应激表达特性的分析.海洋与湖沼,2013,44(1):182-188.
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刺参(Apostichopus japonicus)高温胁迫应答基因应激表达特性的分析
孙国华1, 吉成龙1,2, 杨建敏1, 王卫军1, 任利华1
1.山东省海洋水产研究所;2.中国科学院烟台海岸带研究所
摘要:
采用实时荧光定量PCR技术对刺参高温胁迫抑制性消减cDNA文库中2个上调表达差异基因hsp70l(2)efl, 2 个下调表达差异基因 pcsk9myp, 在不同温度、不同胁迫时间以及不同组织中的应激表达特性进行了分析。在15—30℃范围内, 温度越高hsp70l(2)efl基因相对表达量越多; 而pcsk9myp基因随着温度升高其表达量下降。在30℃高温胁迫0—3h时间内, hsp70表达量的变化最为显著, 表现为先升后降再升; l(2)efl 在1h后开始明显的上调表达, 在2.5h之后呈下降趋势; pcsk9myp基因表现为表达下调, 表达量最小值分别在3h和2h。常温下hsp70l(2)eflpcsk9均在体壁中的表达量最高, 在呼吸树中表达量最少, myp在消化道中表达量最高, 在纵肌中表达量最少; 高温胁迫后hsp70l(2)efl 均在呼吸树中上调表达量变化最显著; pcsk9myp分别在呼吸树和纵肌中下调表达量变化最显著。这4种基因通过表达产物量的变化或作为功能蛋白直接参与代谢调节, 或作为调节蛋白调控胁迫功能蛋白的表达及活性来提高刺参对高温胁迫的耐受能力。
关键词:  刺参, 高温胁迫, 热休克蛋白70, 类致死必需蛋白, 前蛋白转化酶枯草溶菌素9, 主要卵黄蛋白
DOI:10.11693/hyhz201301027027
分类号:
基金项目:山东省自然科学基金项目, ZR2011CM036 号; 山东省良种工程项目“速生抗病耐高温刺参良种选育”, 2008—2011; 山东省优秀中青年科学家奖励基金(博士基金)项目, 2008BS06004号; 山东省现代农业产业技术体系刺参创新团队刺参育种岗位, 2012—2014
附件
EXPRESSION ANALYSIS OF HEAT STRESS RESPONSIVE GENES IN APOSTICHOPUS JAPONICUS
SUN Guo-Hua1, JI Cheng-Long1,2, YANG Jian-Min1, WANG Wei-Jun1, REN Li-Hua1
1.Shandong Marine Fisheries Research Institute;2.Yantai Institute of Coastal Zone Research, Chinese Academy of Sciences
Abstract:
To analyze gene expression in response to environmental temperature changes in Apostichopus japonicus, two up-regulated genes hsp70 and l(2)efl, and two down-regulated genes myp and pcsk9 in suppression subtractive cDNA library of heat stress, were picked out to investigate under different stress time, different temperature and different tissue using real-time quantitative PCR. At 15—30℃, the higher the temperature, the more relative expression of hsp70 and l(2)efl were. The genes of myp and pcsk9 showed reduced expression under the same conditions. During 1—3h of heat stress of 30℃, hsp70 changed significantly, representing a fluctuate pattern. L(2)efl significantly increased after 1h, and reached the maximum at 2.5h, then followed by a downward trend. The expression of myp and pcsk9 reached minimum at 3h and 2h, respectively. Under room temperature,hsp70, l(2)efl and pcsk9 had the highest expression in the body wall and the least in the respiratory tree, while the highest expression and least expression of myp were in the digestive tract and longitudinal muscle, respectively. After high temperature stress, hsp70 and l(2)efl changed significantly in the respiratory tree, as pcsk9 and myp varied most obviously in breathing trees and longitudinal muscle. Via variation of expression, the protein products of the four genes involved in the regulation of metabolism as function proteins, or control the expression and the activity of the stress proteins as regulatory proteins, in order to improve the heat stress tolerance of A. japonicus.
Key words:  Apostichopus japonicus, Heat stress, Heat shock protein 70, Protein lethal (2) essential for life, Major yolk protein, Protein convertase subtilisin/kesin type 9
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