摘要
播娘蒿是极端耐寒的冷诱导植物,研究其低温胁迫下的冷响应基因对于揭示其抗寒性具有重要意义.根据拟南芥At KIN1和At KIN2同源比对,设计同源引物进行播娘蒿KIN基因克隆,通过RACE技术克隆得到Ds KIN1基因,利用Vector NTI11.5软件对其进行序列分析,采用Realtime-PCR测定Ds CBF1、Ds CBF2、Ds COR和Ds KIN1基因在不同处理方式[整株低温处理、同一植株局部低温处理和局部未受低温处理(两部分植株)]下各时间段(0.2 h、0.5 h、1 h、2 h、6 h、12 h、24 h)的表达,采用String数据库预测分析与Ds KIN1相互作用的蛋白.结果显示,Ds KIN1基因序列全长为462 bp,开放阅读框ORF长度为198 bp,编码66个氨基酸,分子量(Mr)为6.61×10~3,理论等电点为9.10,亲水性好.播娘蒿Ds CBF1和Ds CBF2在0.2 h开始表达,在2 h达到最大,随后下降.在冷诱导0.2 h后,Ds CBF调控的耐寒基因Ds COR和Ds KIN1基因开始表达,均呈现上调的趋势.整株、局部冷诱导植株与同一植株上未受低温胁迫部位的耐寒基因Ds COR和Ds KIN1表达模式类似.此外发现与Ds KIN1相互作用的蛋白大部分为低温诱导蛋白、盐和渗透压胁迫响应的信号蛋白、与渗透调节有关的家族蛋白、RING-H2锌指蛋白2B以及未知蛋白等.本研究说明播娘蒿局部冷诱导时,冷信号可进行传递,使未受冷诱导部位获得耐寒性能.
Descurainia sophia is a species of extremely hardy and cold-inducible plants. Research on cold-responsive genes of D. sophia under cold stress can help to elucidate the mechanisms underlying its cold resistance. Through homologous alignment of Arabidopsis thaliana AtKIN1 and AtKIN2, DsKIN1 was cloned based on homologous primers. The expression of DsKIN1 was examined by RT-PCR using different low-temperature processing methods (whole plant and partial plant treatment) and different periods (0.2 h, 0.5 h, 1 h, 2 h, 6 h, 12 h, and 24 h). Predicting and analyzing the proteins interacting with DsKIN1 involved the String database. Using RACE, a 462-bp DNA fragment was obtained as the full-length sequence of DsKIN1 containing a 198-bp open reading frame (ORF) encoding 66 amino acid residues. The sequence analysis in Vector NTI 11.5 showed that DsKIN1 has a molecular mass of 6.61 × 103, the theoretical isoelectric point of 9.10, and good hydrophilicity. The expression of DsCBF1 and DsCBF2 started at 0.2 h, reached the maximum at 2 h, and then dropped. The expression of cold-resistance genes DsCOR and DsKIN1 regulated by DsCBF started after cold induction for 0.2 h. This expression pattern showed an upregulation trend. In the whole-plant treatment group (various sites), partial-plant treatment group, and the group without treatment, expression patterns of DsCOR and DsKIN1 were similar. The proteins interacting with DsKIN1 were mostly low-temperature-inducible proteins, salt stress- and osmotic-stress-responsive signaling proteins, a family of proteins related to osmotic adjustment, RING-H2 type zinc-finger protein 2B, and some unknown proteins. This study indicates that a cold signal can be transmitted to give other sites (without cold induction) the capacity for cold resistance.
出处
《应用与环境生物学报》
CAS
CSCD
北大核心
2017年第3期467-473,共7页
Chinese Journal of Applied and Environmental Biology
基金
国家自然科学基金项目(31171447)
“十二五”国家科技支撑计划项目(2014BAD02B02)
国家微生物资源平台项目(NIMR-2016-8)
四川省科技厅项目(2014GZX0005,2017JCPT0001)资助