The Arabidopsis 1-Aminocyclopropane-1-Carboxylate Synthase Gene 1 Is Expressed during Early Development

The temporal and spatial expression of one member of the Arabidopsis 1-aminocyclopropane-1-carboxylate (ACC) synthase gene family (ACS1) was analyzed using a promoter-[beta]-glucuronidase fusion. The expression of ACS1 is under developmental control both in shoot and root. High expression was observed in young tissues and was switched off in mature tissues. ACS1 promoter activity was strongly correlated with lateral root formation. Dark-grown seedlings exhibited a different expression pattern from light-grown ones. The ACC content and the in vivo activity of ACC oxidase were determined. ACC content correlated with ACS1 gene activity. ACC oxidase activity was demonstrated in young Arabidopsis seedlings. Thus, the ACC formed can be converted into ethylene. In addition, ethylene production of immature leaves was fourfold higher compared to that of mature leaves. The possible involvement of ACS1 in influencing plant growth and development is discussed.     

桃ACC合酶基因的分离及其差异表达

利用5'/3'RACE FCR技术,从桃（Prunus persica(L.)Batsch）果实中克隆了植物乙烯生物合成的关键酶-ACC合酶的全长cDNA pacs,对pacs基因进行全序列测定表明,该基因全长1848个碱基,编码区1449个碱基,5'端有177个碱基的非编码区序列,3'端有219个碱基的非编码区序列（不包括终止密码子TAA）。pacs基因编码区共编码483个氨基酸,蛋白质大小为54kd,等电点为6.43。pacs与番茄（S19677）、梅（AB031026)、番木瓜（U68216）、苹果（AB034993）等其他植物ACC合酶cDNA氨基酸序列同源性分别为65%、70%、90%,并存在与这些ACC合酶氨pacs12(af467782)在叶片和花中基因表达模式基本一致,伤处理和IAA均能诱导叶片pacs和pacs12基因的表达,但pacs在伤处理叶片的表达水平比pacs12高;pacs和pacs12基因在果实表达有所不同,pacs在绿熟和成熟果实中均有表达,而pacs12在绿熟果实中基本检测不同,在成熟果实中才有表达,两在果实中的表达水平比伤处理和IAA处理叶片和花中要低。     

桃ACC合酶基因的分离及其差异表达

利用5′/3′RACE PCR技术,从桃(Prunus persica (L.) Batsch)果实中克隆了植物乙烯生物合成的关键酶--ACC合酶的全长cDNA pacs,对pacs基因进行全序列测定表明,该基因全长1 848个碱基,编码区为1 449个碱基,5′端有177个碱基的非编码区序列,3′端有219个碱基的非编码区序列(不包括终止密码子TAA).pacs基因编码区共编码483个氨基酸,蛋白质大小为54 kD,等电点为6.43.pacs与番茄(S19677)、梅(AB031026)、番木瓜(U68216)、苹果(AB034993)等其他植物ACC合酶cDNA氨基酸序列同源性分别为65%、70%、75%、90%,并存在与这些ACC合酶氨基酸的活性位点保守序列SLSKDMGFPGFR.RT-PCR结合杂交分析表明,pacs和我们以前克隆的桃ACC合酶cDNA pacs12(AF467782)在叶片和花中基因表达模式基本一致,伤处理和IAA均能诱导叶片pacs 和pacs12基因的表达,但pacs在伤处理叶片的表达水平比pacs12高;pacs 和pacs12基因在果实表达有所不同,pacs在绿熟和成熟果实中均有表达,而pacs12在绿熟果实中基本检测不到,在成熟果实中才有表达,两者在果实中的表达水平比伤处理和IAA处理叶片和花中要低.     

黄瓜雌花发育过程中柱头的腺特征

利用透射电镜技术研究了黄瓜(Cucumis sativus L.)雌花柱头发育过程中传递组织、分泌组织和乳突细胞的超微结构.在整个发育过程中,乳突细胞和分泌组织细胞的细胞质内密布很多管状及槽库膨大的内质网,产生很多分泌囊泡;在成熟柱头的传递组织和分泌组织细胞间观察到大量的胞间连丝;乳突细胞和分泌细胞高度液泡化,质膜内折;在柱头发育过程中分泌组织细胞的核周腔扩大形成裂瓣状核,到柱头成熟阶段裂瓣状核更加明显.进一步的研究显示,在成熟柱头的不同组织细胞中,ATPase的活性呈现在质膜和液泡膜上,随着柱头的发育,PM-H -ATPase的比活性明显增强.结果表明,黄瓜雌花柱头的腺特征随发育进程而趋于显著.     

黄瓜雌花发育过程中柱头的腺特征(英文)

利用透射电镜技术研究了黄瓜（Ｃｕｃｕｍｉｓ　ｓａｔｉｖｕｓ　Ｌ．）雌花柱头发育过程中传递组织、分泌组织和乳突细胞的超微结构。在整个发育过程中,乳突细胞和分泌组织细胞的细胞质内密布很多管状及槽库膨大的内质网,产生很多分泌囊泡;在成熟柱头的传递组织和分泌组织细胞间观察到大量的胞间连丝;乳突细胞和分泌细胞高度液泡化,质膜内折;在柱头发育过程中分泌组织细胞的核周腔扩大形成裂瓣状核,到柱头成熟阶段裂瓣状核更加明显。进一步的研究显示,在成熟柱头的不同组织细胞中,　ＡＴＰａｓｅ的活性呈现在质膜和液泡膜上,随着柱头的发育,ＰＭ－Ｈ＋－ＡＴＰａｓｅ的比活性明显增强。结果表明,黄瓜雌花柱头的腺特征随发育进程而趋于显著。     

cDNA Cloning and Characterization of a Gibberellin-Responsive Gene in Hypocotyls of Cucumis sativus L.

A cDNA clone corresponding to a gibberellin-responsive gene(CRG16) was isolated from cucumber hypocotyls. CRG16 was deducedto encode an extremely hydrophobic protein of 65 amino acids.The deduced sequence exhibited no significant homology to otherproteins. Levels of CRG16 mRNA reflected the gibberellin-inducedelongation of cucumber hypocotyls. (Received December 16, 1995; Accepted April 22, 1996)     

New Assay for Rhizobitoxine Based on Inhibition of 1-Aminocyclopropane-1-Carboxylate Synthase

Rhizobitoxine is synthesized by the legume symbiont Bradyrhizobium elkanii and the plant pathogen Burkholderia andropogonis. Rhizobitoxine competitively inhibited 1-aminocyclopropane-1-carboxylate (ACC) synthase bLE-ACS2 from the tomato, a key enzyme in the pathway of ethylene biosynthesis. Based on this inhibition of ACC synthase, we have developed a new assay for rhizobitoxine.     

Monomeric and Dimeric Forms and the Mechanism-Based Inactivation of 1-Aminocyclopropane-1-Carboxylate Synthase

The molecular mass of 1-aminocyclopropane-1-carboxylate (ACC)synthase from a variety of sources was examined by both high-performancegel-filtration chromatography and polyacryl-amide gel electrophoresisin the presence of sodium dodecylsulfate. Enzymes used wereprepared from wounded or non-wounded pericarp of ripe tomatofruits and wounded mesocarp of winter squash fruits, as wellas from cells of E. coli that had been transformed with cDNAsfor the wound-induced or ripening-induced ACC synthases of tomatoand the wound-induced or auxininduced enzymes from winter squash.The enzymes from tomato fruit tissues were isolated in a monomericform, whereas the enzymes synthesized in E. coli from cDNAsfor tomato ACC synthase were isolated in a dimeric form. ACCsynthases of winter squash obtained either from fruit tissuesor from transformed E. coli cells were isolated in dimeric forms.ACC synthase in the monomeric form was less sensitive to theinactivation that is associated with the catalytic reaction(the mechanism-based inactivation) than the enzyme in the dimericform. A plausible mechanism relating the difference in molecularform to sensitivity to the mechanism-based inactivation of tomatoACC synthase is discussed. (Received February 1, 1993; Accepted May 17, 1993)     

The Apparent Turnover of 1-Aminocyclopropane-1-Carboxylate Synthase in Tomato Cells Is Regulated by Protein Phosphorylation and Dephosphorylation

In suspension-cultured cells of tomato (Lycopersicon esculentum Mill.), the activity of 1-aminocyclopropane-1-carboxylate synthase (ACC-S) rapidly increases in response to fungal elicitors. The effect of inhibitors of protein kinases and protein phosphatases on the regulation of ACC-S was studied. K-252a, an inhibitor of protein kinases, prevented induction of the enzyme by elicitors and promoted its apparent turnover in elicitor-stimulated cells, causing a 50% loss of activity within 4 to 8 min in both the presence and absence of cycloheximide. Calyculin A, an inhibitor of protein phosphatases, caused a rapid increase of ACC-S in the absence of elicitors and an immediate acceleration of the rate of ACC-S increase in elicitor-stimulated cells. In the presence of cycloheximide there was no such increase, indicating that the effect depended on protein synthesis. Cordycepin, an inhibitor of mRNA synthesis, did not prevent the elicitor-induced increase in ACC-S activity but strongly reduced the K-252a-induced decay and the calyculin A-induced increase of its activity. In vitro, ACC-S activity was not affected by K-252a and calyculin A or by treatments with protein phosphatases. These results suggest that protein phosphorylation/dephosphorylation is involved in the regulation of ACC-S, not by regulating the catalytic activity itself but by controlling the rate of turnover of the enzyme.     

离体培养黄瓜子叶诱导雌花的研究

采用添加Spd和IAA的MS培养基培养离体黄瓜子叶,研究了Spd和IAA对雌花诱导的协同作用,及昼夜温差、培养基中N素和pH值对雌花诱导的影响。结果表明,分别添加Spd、IAA时的雌花诱导率和单株雌花数偏低或为0,12 mg·L^-1 Spd与0.01mg·L^-1 IAA 配合时的诱导效果明显高于单独处理的,而对照组未见雌花,说明Spd和IAA对雌花诱导的协同作用显著。在0、2、6、10℃昼夜温差,60、70、80、90 mmol·L^-1的N素含量和pH 5.4、5.8、6.2、6.6的培养条件下,70 mmol·L^-1 N、6℃温差和pH 6.2时的雌花诱导效果较好,表明适当提高昼夜温差、培养基中N素和pH值有利于黄瓜子叶的雌花诱导。     

Isolation of a Tomato Protease that May Be Involved in Proteolysis of 1-Aminocyclopropane-1-Carboxylate Synthase

1-aminocyclopropane-1-carboxylate (ACC) synthase is a principal enzyme that catalyses the committed step in phytohormone ethylene biosynthesis. Previous evidence indicates that the hypervariable C-terminus of ACC synthase is most likely to be processed proteolytically in vivo. However, the protease responsible has not been identified thus far. In the present study, we detected proteolytic activity against ACC synthase (LeACS2) in tomato (Lycopersicon esculentum Mill.) fruit extract based on a newly established in vitro assay system. Purification of the protease through DEAE, gel filtration and MonoQ chromatography resulted in considerable enrichment of a 64-kDa protein species. Subsequent biochemical analysis of the purified tomato protease revealed that the optimal conditions for its proteolytic activity were at pH 8.0 and at 37 ℃. In addition, the protease activity was blocked completely by the metalloprotease inhibitor 1,10-phenanthroline. The present study represents the first report on the isolation of an ACC synthaseprocessing protease from plant tissues.     

培养基上生长的黄瓜去根苗雌花高效诱导体系

报告了外源KT(激动素)和IAA(吲哚乙酸)对黄瓜去根苗雌花诱导的增效作用,以及外植体苗龄、下胚轴长度、培养基中N素和NH4 -N水平对成花的影响,据此建立了有效的雌花诱导体系。7d龄带1/2下胚轴的去根苗接种在MS培养基中,对KT3.0mg/L添加IAA0.01mg/L时的雌花成花率达28%,比单用KT3.0mg/L、IAA0.01mg/L的分别高12%、26%,而对照组未见雌花,说明KT和IAA对雌花诱导的增效作用显著。实验表明,N80mmol/L(NH4 -N/TN37.5%)、保留1/4下胚轴和6d苗龄时的黄瓜去根苗雌花诱导率最高。     

Isolation of a Tomato Protease that May Be Involved in Proteolysis of 1-Aminocyclopropane-1-Carboxylate Synthase

1-aminocyclopropane- 1-carboxylate （ACC） synthase is a principal enzyme that catalyses the committed step in phytohormone ethylene biosynthesis. Previous evidence indicates that the hypervariable C-terminus of ACC synthase is most likely to be processed proteolytically in vivo. However, the protease responsible has not been identified thus far. In the present study, we detected proteolytic activity against ACC synthase （LeACS2） in tomato （Lycopersicon esculentum Mill.） fruit extract based on a newly established in vitro assay system. Purification of the protease through DEAE, gel filtration and MonoQ chromatography resulted in considerable enrichment of a 64-kDa protein species. Subsequent biochemical analysis of the purified tomato protease revealed that the optimal conditions for its proteolytic activity were at pH 8.0 and at 37 ~C. In addition, the protease activity was blocked completely by the metalloprotease inhibitor 1,10-phenanthroline. The present study represents the first report on the isolation of an ACC synthase- processing protease from plant tissues.     

外源激素KT对黄瓜去根苗雌花形态建成中生化物质变化的影响

在建立了离体黄瓜去根苗雌花诱导体系的前提下,研究了在外源激素KT影响下离体黄瓜去根苗嫩枝的生理生化变化及雌花的形态建成。结果表明,在雌花形态建成过程中去根苗嫩枝的可溶性糖(C)、可溶性蛋白含量(N)、淀粉含量和C/N与雌花诱导率呈正相关关系;嫩枝中较高的POD、CAT、SOD活力水平明显有利于雌花的形态建成;诱导组和对照组的RNA含量差别明显,其含量高低顺序与雌花诱导率大小一致,而DNA含量差异很小,说明激素对雌花的诱导作用发生在转录水平。可见在激素影响下去根苗嫩枝出现的生化物质变化有利于雌花的形态建成。     

全雌系苦瓜ACC合成酶基因cDNA克隆及序列分析

以全雌系苦瓜‘X-Hei-d-d’花蕾为材料,根据已报道ACC合成酶(1-aminocyclopropane-1-carboxylic acid synthase,ACS)保守氨基酸序列设计简并引物,采用RT-PCR技术及序列拼接,获得了全雌系苦瓜ACS基因cDNA序列,命名为Mc-ACS4(GenBank登录号:FJ459814)。该序列包含一个1 455 bp的完整开放阅读框,编码484个氨基酸,具有7个保守区;系统进化上与普通苦瓜ACS基因首先聚类,同源性达99%,二者仅有2个氨基酸差异,推测可能与全雌系苦瓜性别分化有关。     

Microbody Malate Dehydrogenase Isozyme in Cotyledons of Cucumis sativus L. during Development

The properties of the microbody malate dehydrogenase (EC 1.1.1.37) (MDH) isozyme from cotyledons of Cucumus sativus L. were compared during development. It is concluded that the isozyme remains unaltered, despite the transition from glyoxysomal to peroxisomal function that occurs during greening of the cotyledons. This conclusion is based on electrophoretic behavior, chromatographic elution from DEAE-cellulose, molecular weight, kinetic behavior, and immunological identity. In most cases, the distinct properties of the other MDH isozymes in the tissue during development provide additional support for an unchanging microbody isozyme. A method for assaying specifically the microbody isozyme was developed; a diluted preparation was assayed spectrophotometrically before and after complete immunological precipitation. The turnover of the microbody MDH isozyme was investigated by a radioactive labeling study. There is incorporation into both glyoxysomal and peroxisomal MDH. Degradation rates do not correspond with either decline of glyoxysomal activity or the continuation of peroxisomal activity. Apparently, the microbody MDH isozyme is continually turned over throughout cotyledon development.