拟南芥转录因子HB22与CRY1相互作用研究

通过酵母双杂交的方法,从拟南芥转录因子库中筛选出了6个与CRY1相互作用的转录因子.为了测定其中的HB22与CRY1相互作用的强度,采用了ONPG与CPRG两种方法对其β-半乳糖苷酶活性进行了分析.结果显示在蓝光光强为50μmol/m2s,孵育时间为4 h的情况下,蓝光与暗处理情况下的β-半乳糖苷酶活性比值分别为1.668和2.18.进一步设置蓝光处理时间及光强梯度实验数据显示,在蓝光光强为50μmol/m2s孵育时间为3 h时,二者相互作用强度达到最高.说明HB22与CRY1的相互作用具有蓝光响应.对蓝光处理不同时间的野生型col-4与cry1缺失突变体的材料进行HB22基因的定量PCR分析,发现拟南芥cry1缺失突变体中该基因的表达量比野生型中高,在蓝光处理2 h时,缺失突变体中表达量为野生型中的6倍左右.说明CRY1可能介导蓝光抑制HB22基因表达.     

拟南芥中光信号系统中关键基因CRY1、CRY2和COP1启动子的表达模式分析

通过构建表达光信号系统关键基因CRY1、CRY2和COP1启动子与GUS融合基因的拟南芥转基因植株,并对转基因植株进行GUS组织化学染色的结果表明,CRY1、CRY2和COP1的表达模式不受光条件的调控,并且在各器官有广泛的表达。分别分析CRY1基因启动子在cop1突变体以及COP1基因启动子在cry1突变体遗传背景中表达模式的结果表明,CRY1和COP1在转录水平上不存在明显的相互调控关系。     

高梁CRY2基因的克隆及其表达分析

从高粱(Sorghum bicolor L. var.R1ll)幼苗中提取总RNA,利用RT-PCR和cDNA的3'末端的快速扩增方法(3'RACE),第一次克隆了高粱隐花色素2基因(CRY2)的cDNA序列.该序列包括了一个完整的开放阅读框,编码大小为690个氨基酸残基的蛋白质,与水稻、番茄和拟南芥CRY2蛋白质的同源性分别为8 7%、5 7%和45.5%.高粱CRY2基因组DNA含有3个内含子和4个外显子.RT-PCR检测结果表明,高粱CRY2基因在根、茎和叶中都有转录.Western blotting结果显示CRY2蛋白在根、茎和叶中表达,并在黑暗中积累,蓝光下降解.高粱CRY2可能在蓝光诱导的幼苗去黄化反应中起作用.     

小地老虎隐花色素基因cryptochrome1和cryptochrome2的克隆及mRNA表达分析

隐花色素(cryptochrome,cry)是一类广泛存在于生物体内的蓝光和近紫外光受体,介导生物对蓝光的一系列反应并能导引生物钟。本研究利用RT-PCR和RACE方法获得了小地老虎Agrotis ypsilon cry1和cry2基因,分别命名为Aycry1和Aycry2。Aycry1基因(GenBank No.JQ616846)读码框1 587 bp,编码528个氨基酸,预测分子量60.5 ku,等电点6.68。Aycry2基因(GenBank No.JQ616847)读码框2 439 bp,编码812个氨基酸,预测分子量92.1ku,等电点8.45。保守区分析表明:Aycry1和Aycry2均含有FAD结合位点的PHR区域和C末端保守区域。氨基酸序列比对分析表明,小地老虎的AyCRY1和AyCRY2分别与其它鳞翅目昆虫的CRY1和CRY2有很高的一致性,其中与棉铃虫Helicoverpa armigera的一致性最高,分别为89.5%和73.8%。NJ聚类分析结果表明昆虫含有两类CRY,即CRY1和CRY2,它们可分别以目为单位进行聚类,其中AyCRY1和AyCRY2分别与其它鳞翅目昆虫的CRY1和CRY2聚到一起。以室内饲养的小地老虎为材料,以3 h为间隔检测了Aycry1和Aycry2的24 h昼夜表达变化,结果表明这2个基因均表现出一定的昼夜节律性。Aycry1和Aycry2表达趋势白天高于晚上,表达峰值出现在ZT7(Zeitgeber time)。方差分析其昼夜波动差异不显著。     

高粱CRY2基因的克隆及其表达分析

从高粱(Sorghum bicolor L．var．R111)幼苗中提取总RNA,利用RT-PCR和cDNA的3′末端的快速扩增方法(3′RACE),第一次克隆了高粱隐花色素2基因(CRY2)的cDNA序列。该序列包括了一个完整的开放阅读框,编码大小为690个氨基酸残基的蛋白质,与水稻、番茄和拟南芥CRY2蛋白质的同源性分别为87％、57％和45．5％。高粱CRY2基因组DNA含有3个内含子和4个外显子。RT-PCR检测结果表明,高粱CRY2基因在根、茎和叶中都有转录。Western blotting结果显示CRY2蛋白在根、茎和叶中表达,并在黑暗中积累,蓝光下降解。高粱CRY2可能在蓝光诱导的幼苗去黄化反应中起作用。     

隐花素在生长素调控拟南芥下胚轴伸长中的作用分析

以拟南芥野生型(Col-4)和隐花素双突变体cry1cry2为材料,研究不同光照条件下不同浓度吲哚乙酸(IAA)和IAA极性运输抑制剂氨基酞氨酸(NPA)对幼苗下胚轴伸长的影响。结果显示,低浓度IAA(10-7mol/L)可促进连续白光和红光下cry1cry2幼苗下胚轴伸长,而连续蓝光下cry1cry2下胚轴的伸长则受到抑制。蓝光下相同浓度的NPA对cry1cry2幼苗下胚轴伸长的抑制程度比野生型要小。RT-PCR分析结果显示,瞬时蓝光处理时IAA合成关键酶基因IGPS以及生长素应答基因IAA1和IAA5在cry1cry2突变体中的转录水平比野生型中要高。这表明隐花素可能部分通过调节IAA合成和/或IAA极性运输,介导蓝光调控拟南芥下胚轴的伸长。     

小地老虎隐花色素基因cryptochromel和cryptochrome2的克隆及mRNA表达分析

隐花色素（cryptochrome,cry）是一类广泛存在于生物体内的蓝光和近紫外光受体,介导生物对蓝光的一系列反应并能导引生物钟。本研究利用RT—PCR和RACE方法获得了小地老虎Agrotisypsiloncryl和cry2基因,分别命名为Aycryl和Aycry2。Aycryl基因（GenBankNo．JQ616846）读码框1587bp,编码528个氨基酸,预测分子量60．5ku,等电点6．68。Aycry2基因（GenBankNo．JQ616847）读码框2439bp,编码812个氨基酸,预测分子量92．1ku,等电点8．45。保守区分析表明：Aycryl和Aycry2均含有FAD结合位点的PHR区域和c末端保守区域。氨基酸序列比对分析表明,小地老虎的AyCRY1和AyCRY2分别与其它鳞翅目昆虫的CRY1和CRY2有很高的一致性,其中与棉铃虫HelicoverpaaFmigera的一致性最高,分别为89．5％和73．8％。NJ聚类分析结果表明昆虫含有两类CRY,即CRY1和CRY2,它们可分别以目为单位进行聚类,其中AyCRY1和AyCRY2分别与其它鳞翅目昆虫的CRY1和CRY2聚到一起。以室内饲养的小地老虎为材料,以3h为间隔检测了Aycry1和Aycry2的24h昼夜表达变化,结果表明这2个基因均表现出一定的昼夜节律性。Aycry1和Aycry2表达趋势白天高于晚上,表达峰值出现在ZT7（Zeitgebertime）。方差分析其昼夜波动差异不显著。     

蓝光和蔗糖对拟南芥花色素苷积累和CHS基因表达的影响

以在20μmol m^-2s^-1白光下生长13d的拟南芥(Arabidopsis thaliana,Landsbcrg生态型)幼苗为材料,采用测定叶片花色素苷含量和Northern blot方法,研究蓝光与蔗糖在诱导植物花色素苷积累及相关基因表达中的作用。结果表明：蓝光处理后,叶片花色素苷积累随光强和照光时间的延长而增加,突变体hy4叶片的花色素苷含量明显低于野生型(WT),说明隐花色素1(cry1)是蓝光诱导花色素苷积累的主要光受体：WT中苯基苯乙烯酮合酶基因(CHS)的表达受蓝光诱导,处理4h即有表达,8h达到最高,之后逐渐下降;蓝光不能诱导突变体hy4中CHS基因的表达,说明cry1介导蓝光诱导CHS基因的表达。培养基中不含蔗糖,削弱了蓝光诱导的拟南芥叶片花色素苷的积累,CHS基因表达也受到抑制。蔗糖不仅作为碳源参与蓝光诱导的花色素苷积累,还可能作为信号分子参与蓝光诱导的CHS表达。     

低等植物蓝光受体信号传导研究

拟南芥含有5个已分离的蓝光受体和至少1个未鉴定的蓝光/紫外光-A受体.隐花色素(CRY1、CRY2和CRY3) 调节植物的形态建成、开花和生物节律性,而向光素 (PHOT1和PHOT2) 调节植物的向光性、叶绿体运动和气孔开放.黄素可以吸收蓝光和紫外光-A,是CRY和PHOT蓝光受体的生色团.对这些光受体的结构和作用模式已了解很多.苔藓植物小立碗藓中含有2个已分离的隐花色素(CRY1a和CRY1b),负责调节侧枝形成和调控生长素反应;有4个向光素(PHOTA1,PHOTA2,PHOTB1,PHOTB2) 调节叶绿体的运动.苔藓细胞内蓝光/紫外光-A引发的信号转导有Ca2+参与.     

盐胁迫对二穗短柄草幼苗生长及不同器官中盐离子稳态的影响

采用4种浓度的NaCl溶液(50、100、150、200 mmol/L)处理二穗短柄草和拟南芥(对照)幼苗,测定不同浓度盐胁迫下2种植物幼苗的生长指标和离子分布,以探讨二穗短柄草在盐胁迫下主要阳离子平衡机制.结果表明:(1)盐胁迫显著抑制二穗短柄草根叶的生物量积累.(2)根冠比数据显示,在盐胁迫条件下二穗短柄草能够更好地维系地下部分的生物量积累.(3)在4种浓度盐胁迫下,二穗短柄草叶中Na+含量低于根系,而且K+、Cl-含量和K+/Na+比值始终高于根系,说明在二穗短柄草中Na+从地下到地上的转运受到抑制,但对Cl-的转运缺乏有效的调控.(4)回归分析发现,盐胁迫下二穗短柄草和拟南芥根部Na+与K+含量变化呈正相关关系,而在叶部则不相关,说明二穗短柄草和拟南芥Na+与K+在根部具有相同的离子通道,而在叶部却具有各自独立的转运途径.     

拟南芥蓝光受体CRY2的功能及其介导的光形态建成

植物具备一套复杂的由两种蓝光受体和多种信号转导下游组分组成的蓝光感应系统,通过感受光照强度、光的方向和光周期,调节自身对蓝光的应答.蓝光反应的有效波长是蓝光和近紫外光(320～400nm),故蓝光受体也叫蓝光/近紫外光受体.CRY2(Cryptochromes,CRY)是一个核蛋白,在转录水平受蓝光的调节,它的作用是增加拟南芥对蓝光的敏感性.植物蓝光调节的反应主要有向光性、抑制幼茎伸长、叶绿体迁移、刺激气孔张开和调节基因表达等.对植物蓝光反应突变体分子生物学研究进展进行了综述,对蓝光受体及信号转导下游组分在植物发育中的作用及蓝光诱发植物作出反应的分子机制进行了探讨.     

Quantitative real-time kinetics of optogenetic proteins CRY2 and CIB1/N using single-molecule tools

In this work we evaluate the interaction of two optogenetic protein variants (CIB1, CIBN) with their complementary protein CRY2 by single-molecule tools in cell-free extracts. After validating the blue light induced co-localization of CRY2 and CIB1/N by Förster resonance energy transfer (FRET) in live cells, a fluorescence correlation spectroscopy (FCS) based method was developed to quantitatively determine the in vitro association of the extracted proteins. Our experiments suggest that CIB1, in comparison with CIBN, possesses a better coupling efficiency with CRY2 due to its intact protein structure and lower diffusion rate within 300 s detection window.     

Haloperidol,but not olanzapine,may affect expression of PER1 and CRY1 genes in human glioblastoma cell line

Background: There is barely any evidence of antipsychotic drugs affecting the molecular clockwork in human, yet it is suggested that clock genes are associated with dopaminergic transmission, i.e. the main target of this therapeutics. We decided to verify if haloperidol and olanzapine affect expression of CLOCK, BMAL1, PER1 and CRY1 in a human central nervous system cell line model. Methods: U-87MG human glioblastoma cell line was used as an experimental model. The cells were incubated with or without haloperidol and olanzapine in the concentration of 5 and 20 μM for 24 h. Real-time quantitative polymerase chain reaction with the ΔC_T analysis was used to examine the effect of haloperidol and olanzapine on the mRNA expression of the genes. Results: At 5 μM, haloperidol decreased expression of CRY1 almost 20-fold. There was nearly a 1.5-fold increase in expression of PER1. Considering the 20 μM haloperidol concentration and both olanzapine concentrations, no other statistically significant effect was observed. Conclusions: At certain concentration, haloperidol seems to affect expression of particular clock genes in a human central nervous system cell line model, yet mechanism underlying this phenomenon remains elusive.     

CRY1 circadian gene variant interacts with carbohydrate intake for insulin resistance in two independent populations: Mediterranean and North American

Dysregulation in the circadian system induced by variants of clock genes has been associated with type 2 diabetes. Evidence for the role of cryptochromes, core components of the system, in regulating glucose homeostasis is not supported by CRY1 candidate gene association studies for diabetes and insulin resistance in human, suggesting possible dietary influences. The purpose of this study was to test for interactions between a CRY1 polymorphism, rs2287161, and carbohydrate intake on insulin resistance in two independent populations: a Mediterranean (n?=?728) and an European origin North American population (n?=?820). Linear regression interaction models were performed in two populations to test for gene–diet interactions on fasting insulin and glucose and two insulin-related traits, homeostasis model assessment of insulin resistance (HOMA-IR) and quantitative insulin sensitivity check index (QUICKI). In addition, fixed effects meta-analyses for these interactions were performed. Cohort-specific interaction analyses showed significant interactions between the CRY1 variant and dietary carbohydrates for insulin resistance in both populations (p?<?0.05). Findings from the meta-analyses of carbohydrate–single nucleotide polymorphism interactions indicated that an increase in carbohydrate intake (% of energy intake) was associated with a significant increase in HOMA-IR (p?=?0.011), fasting insulin (p?=?0.007) and a decrease in QUICKI (p?=?0.028), only among individuals homozygous for the minor C allele. This novel finding supports the link between the circadian system and glucose metabolism and suggests the importance this CRY1 locus in developing personalized nutrition programs aimed at reducing insulin resistance and diabetes risk.     

Phenology of cryptomonads and the CRY1 lineage in a coastal brackish lagoon (Vistula Lagoon,Baltic Sea)

Cryptomonadales have acquired their plastids by secondary endosymbiosis. A novel clade—CRY1—has been discovered at the base of the Cryptomonadales tree, but it remains unknown whether it contains plastids. Cryptomonadales are also an important component of phytoplankton assemblages. However, they cannot be readily identified in fixed samples, and knowledge on dynamics and distribution of specific taxa is scarce. We investigated the phenology of the CRY1 lineage, three cryptomonadales clades and a species Proteomonas sulcata in a brackish lagoon of the Baltic Sea (salinity 0.3–3.9) using fluorescence in situ hybridization. A newly design probe revealed that specimens of the CRY1 lineage were aplastidic. This adds evidence against the chromalveolate hypothesis, and suggests that the evolution of cryptomonadales’ plastids might have been shorter than is currently assumed. The CRY1 lineage was the most abundant cryptomonad clade in the lagoon. All of the studied cryptomonads peaked in spring at the most freshwater station, except for P. sulcata that peaked in summer and autumn. Salinity and concentration of dissolved inorganic nitrogen most significantly affected their distribution and dynamics. Our findings contribute to the ecology and evolution of cryptomonads, and may advance understanding of evolutionary relationships within the eukaryotic tree of life.