Are ABA,ethylene or their interaction involved in the response of leaf growth to soil water deficit? An analysis using naturally occurring variation or genetic transformation of ABA production in maize

The role of abscisic acid (ABA) and its possible interaction with ethylene in mediating leaf elongation response to soil water deficit are a matter of controversy. To address this question, we used a set of maize genotypes with various levels of ABA either due to natural variability or to genetic transformation targeted on NCED/VP14, a key enzyme of ABA synthesis. The transgenic lines yielded less strong phenotypes than available mutants, making it possible to use them under normal growing conditions. We focused on leaf elongation during night periods in order to avoid the confounding effect of ABA on leaf water status. Our results suggest that over a wide range, internal ABA level (measured in both leaf extracts or xylem sap) has no clear effect on leaf elongation response to soil water deficit, except in the case of an antisense line presenting the strongest reduction in ABA accumulation that showed a slight maintenance of leaf elongation during water deficit. Leaf ethylene production rate was variable and not related to water deficit except in the ABA-deficient transgenic lines where it was increased by water deficit on average but not systematically. Moreover, variability in ethylene production rate was not linked to variability in elongation rate. Our results thus suggest that neither ABA nor ethylene seems to play a major role in the control of leaf elongation response to soil water deficit.     

茶树CsNCED2基因的克隆和表达分析

该研究以铁观音茶树品种叶片为材料,通过RT-PCR技术,克隆了茶树脱落酸(ABA)合成途径关键限速酶——9-顺式环氧类胡萝卜素裂解双加氧酶(9-cis-epoxycarotenoid dioxygenase,NCED)基因的全长cDNA序列。该基因cDNA全长1 931bp,包含1 821bp完整开放阅读框,共编码606个氨基酸残基。NCBI同源分析结果表明,与葡萄VvNCED2相似性最高(78%),命名为CsNCED2(NCBI登录号:MF765770)。氨基酸序列分析显示,其具有NCED家族的FLNO2258保守结构域,以及MIAHPKxDP和HDFAITE保守结构域序列;在保守区存在4个Fe2+活性组氨酸结合位点,N-端含有叶绿体转运肽。实时荧光定量PCR分析表明,CsNCED2基因在铁观音叶、茎和花中表达量较高;白茶萎凋和乌龙茶做青均可以诱导CsNCED2基因显著上调表达;除干旱胁迫抑制CsNCED2表达外,ABA和低温胁迫均能够诱导CsNCED2基因显著上调表达。表明CsNCED2基因在茶树ABA合成代谢以及胁迫响应中发挥重要作用。     

Phylogenetic analysis and evolutionary studies of plant carotenoid cleavage dioxygenase gene

The oxidative breakdown of carotenoid evidences the formation of apocarotenoids through carotenoid cleavage dioxygenases (CCDs). Numerous CCDs and apocarotenoids have been identified and characterized in plants. Using available sequence data, a study was performed to investigate the phylogenetic relationship among CCD genes and to statistically estimate the sequence conservation and functional divergence. In total, 77 genes were identified from 39 species belonging to 21 families. Our result of phylogenetic analysis indicated the existence of well-conserved subfamilies. Moreover, comparative genomic analysis showed that the gene structures of the CCDs were highly conserved across some different lineage species. Through functional divergence analysis, a substantial divergence was found between CCD subfamilies. In addition, examination of the site-specific profile revealed the critical amino acid residues accounting for functional divergence. This study mainly focused on the evolution of CCD genes and their functional divergence which may deliver an initial step for further experimental verifications.     

枸杞脱落酸生物合成关键酶基因NCED的克隆及表达分析

脱落酸(abscisic acid,ABA)对植物的生长发育具有独特的调控功能,并在植物适应逆境环境中发挥重要作用。9-顺式环氧类胡萝卜素双加氧酶(NCED)是高等植物中ABA生物合成途径的一个关键酶。根据GenBank中的植物NCED基因的同源序列设计简并引物,通过RT-PCR及RACE技术从枸杞叶片中克隆到1个编码NCED的基因,命名为LbNCED。其cDNA全长为2316 bp,含有1个1824 bp的开放阅读框,编码1个含607氨基酸残基,分子量为67.38 kDa、等电点(pI)为6.43的假定蛋白,其氨基酸序列与番茄(Lycopersicon esculentum)和马铃薯(Solanum tuberosum)的同源性达90%,在N-末端具有1个含15个氨基酸的叶绿体转运肽。Southern杂交结果表明,该基因在枸杞基因组中以低拷贝形式存在。盐处理和脱水处理的枸杞叶片中LbNCED基因的表达与内源ABA的积累同步变化。     

葡萄NCED基因家族进化及表达分析

9-顺式-环氧类胡萝卜素双加氧酶(NCED)是植物体内ABA生物合成的关键限速酶, 参与植物对干旱、外源ABA和高盐的响应过程, 降低环境胁迫对植株的危害。基于全基因组鉴定分析葡萄(Vitis vinifera) NCED基因家族成员, 探讨各成员的物种进化关系及各个基因成员在不同组织中的时空表达模式及对干旱、ABA和高盐(NaCl)胁迫的响应, 为进一步揭示该基因家族成员的生物学功能奠定基础。在葡萄基因组中共发现12个NCED基因。其推测的编码蛋白质长度在510 (VvNCED2)-625 aa (VvNCED10)之间。VvNCED蛋白的分子量最大值是70.53 kDa (VvNCED10), 最小值是57.85 kDa (VvNCED2)。在从祖先基因分化之后, 葡萄NCED基因发生了5次复制事件, 同时有2次丢失事件。NCED1/2、NCED3/4、NCED6/7和NCED9/10基因对被认为是通过片段复制产生。上述4对复制基因复制时间分布在3.08-120.0百万年前, 晚于单双子叶植物分化的时间。与对照相比, VvNCED1在ABA处理48小时后显著上调(72.1%), 而VvNCED2显著下调(84.0%)。VvNCED6只在干旱处理14、21和28天的根系中表达量高于对照, 分别为对照的2.49、1.05和1.09倍。VvNCED7只在干旱处理14天的根系中表达量高于对照, 为对照的1.07倍。在ABA处理72小时后, VvNCED3表达量较对照显著下调(59.5%), 而VvNCED4较对照显著上调(169.9%)。VvNCED3/VvNCED4分别在NaCl处理24和48小时出现显著性峰值, 较对照分别上调219.2%和114.4%。保守结构域不同组成和不同胁迫处理下差异表达模式是NCED蛋白发生功能分化的基础。推测NCED在进化过程中发生的功能分化有利于复制事件的发生。     

Dehydration tolerance in apple seedlings is affected by an inhibitor of ABA 8'-hydroxylase CYP707A

The effects of an abscisic acid (ABA) 8′-hydroxylase inhibitor (Abz-F1) on ABA catabolism, stomatal aperture, and water potential were examined in apple seedlings under dehydration and rehydration conditions. In this study, 9-cis-epoxycarotenoid dioxigenase (MdNCED) and ABA 8′-hydroxylase (MdCYP707A) genes were isolated and their expressions were investigated under dehydration and rehydration conditions. The stomatal aperture decreased up to 4 h after spraying with Abz-F1 and the stomatal aperture in the Abz-F1-treated leaves was generally lower than that in the untreated control-leaves during the dehydration condition. Although the water potential in untreated control-leaves decreased with the progress of dehydration, it was maintained at a higher level in the Abz-F1 treated-leaves than in the untreated control-leaves during dehydration. Endogenous ABA concentrations increased with dehydration in both the Abz-F1 treated- and untreated-control-leaves, but the ABA levels in the Abz-F1 treated-leaves were higher than those in the untreated control-leaves throughout dehydration. In contrast, the phaseic acid (PA) concentrations in the Abz-F1 treated-leaves were lower than those in the untreated control-leaves during dehydration. The expressions of MdNCEDs in the Abz-F1 treated-leaves were lower than those in the untreated control-leaves regardless of the higher endogenous ABA concentrations. Moreover, the expressions of MdCYP707As in the Abz-F1 treated-leaves were also lower than those in the untreated control-leaves. Higher 50% effective concentrations (EC₅₀) and ascorbic acid concentrations were observed in the Abz-F1 treated-leaves, which show that the oxidative damage under dehydration may be reduced by Abz-F1 application.These results suggest that prompt stomata closure is required for survival under dehydration, and Abz-F1 application may therefore be of practical use. The increase of endogenous ABA, which induced prompt stomata closure in Abz-F1 treated-leaves may depend on inhibition of the expression of MdCYP707As. Furthermore, the results showed the close relationship between MdNCEDs and MdCYP707As on ABA catabolism.     

Nucleotide Variation in the NCED3 Region of Arabidopsis thaliana and its Association Study with Abscisic Acid Content under Drought Stress

Drought tolerance is a comprehensive quantitative trait that is being understood further at the molecular genetic level. Abscisic acid (ABA) is the main drought-induced hormone that regulates the expression of many genes related to drought responses. 9-cis-epoxycarotenoid dioxygenase (NCED3) is thought to be a key enzyme in ABA biosynthesis. In this paper, we measured the ABA content increase under drought stress, and sequenced and compared the sequence of AtNCED3 among 22 Arabidopsis thaliana accessions. The results showed that the fold of ABA content increase under drought stress was highly variable among these accessions. High density single nucleotide polymorphism (SNP) and insertion/deletion (indel) were found in the AtNCED3 region, on average one SNP per 87.4 bp and one indel per 502 bp. Nucleotide diversity was significantly lower in the coding region than that in non-coding regions. The results of an association study with ANOVA analysis suggested that the 274th site (P←→S) and the 327th site (P←→R) amino acid variations might be the cause of ABA content increase of 163av accession under drought stress.