棉花两个β-甘露糖苷酶cDNA的克隆及其特征

从陆地棉纤维cDNA文库中分离出两个B-甘露糖苷酶的cDNA克隆,GhManAl和GhManA2.它们的开放读码框编码长度分别为834个氨基酸和976个氨基酸的多肽序列,这两个多肽C-末端的747个氨基酸残基是完全一致的,而N-末端的序列差异较大.GhManAl和GhManA2均属于糖基水解酶家族2的成员,它们与其它植物来源的该家族中β-甘露糖苷酶之间具有较高的同源性,而与非植物来源的β-甘露糖苷酶之间的同源性较低,但不同蛋白序列中均存在糖基水解酶家族2的酶催化活性所需的两个Glu保守残基.这两个多肽的N-末端均没有信号肽序列,因此可能为胞内酶.从表达特征来看,GhManA1属于组成型表达基因,而GhManA2则为纤维细胞优势表达基因.     

水稻氯离子通道蛋白基因的克隆及表达分析

从粳稻品种‘武进9998-3’中克隆到1个2 429 bp的cDNA片段,结构分析表明,其开放阅读框编码1个含有808个氨基酸残基的碱性蛋白,有11个疏水跨膜区、1个电压门控的氯离子通道、1个胱硫醚β-合酶结构域和3个与阴离子选择性有关的高度保守区。同源性分析结果显示,其与烟草、拟南芥和水稻‘日本晴’中的CLC蛋白相似程度均在50%以上;该基因导入ScCLC(Gef1)基因缺失的酵母突变株中可使其在NaCl或其他盐酸盐胁迫下的生长得到部分恢复。以上结果表明该cDNA片段是一个新的水稻氯离子通道蛋白基因,命名为OsCLC。Q RealTi me-PCR实验表明,该基因在水稻幼穗、旗叶、叶鞘、根、节、节间、叶、愈伤、芽点中均有基础水平表达,在根中表达最高;在盐胁迫24 h内,OsCLC表达明显上升随后下降,此变化趋势具有时间依赖性。由此说明此基因对盐胁迫产生响应,这为深入研究OsCLC的功能奠定一定的理论基础。     

水稻MYB转录因子OsDUO1的cDNA克隆及其表达模式初步分析

我们利用RT-PCR方法成功从水稻中克隆了R2R3类MYB转录因子OsDUO1（Oryza sativa duo pollen1）的全长为1032bp的cDNA,该基因编码一个343个氨基酸残基的蛋白。RT-PCR分析结果表明OsDUO1只在水稻的花粉发育后期表达,说明OsDUO1可能对水稻花粉发育具有生物学功能。生物信息学分析表明,OsDUO1在短柄草、高粱、玉米、拟南芥、烟草、葡萄、蓖麻、杨毛果、小立碗藓植物中有相近同源序列,暗示该基因在进化中具有保守的生物学功能。     

烟草ovate同源基因的全长cDNA克隆与序列分析

根据番茄中控制果实形状的主效数量性状基因ovate的序列,用生物信息学方法从茄科植物烟草中获得直系同源ovate基因(NTovate)的特异片段,经鉴定,此基因在烟草中至少有2个拷贝。在此基础上用cDNA末端快速扩增(RACE)方法,获得其中1个拷贝的1059bpNTovate全长cDNA序列。序列分析表明,NTovate cDNA序列编码352个氨基酸,其蛋白序列与番茄ovate蛋白序列和拟南芥ovate蛋白家族AtOFP7蛋白分别为70%和36%的序列一致率,而与此家族中其他蛋白以及水稻ovate蛋白仅在保守的ovate结构域有较低的同源性。此基因已在GenBank中登录(EU043369)。     

一个水稻OsWNK基因的分离及表达分析

在褐飞虱取食后的水稻cDNA差减文库中筛选到与拟南芥AtWNK1激酶基因高度同源的EST(GenBank登录号:BU572310),以该EST为探针,从褐飞虱取食后的水稻cDNA文库中分离到OsWNK基因的全长cDNA,该基因编码一个含677个氨基酸残基的蛋白激酶,与以前克隆出的一种拟南芥蛋白激酶基因(GenBank登录号:DQ837532)只有3个氨基酸残基的差异。Northern杂交结果显示,在褐飞虱取食后,该基因的表达上升。表明该激酶基因参与褐飞虱取食的应答反应,可能与水稻抗褐飞虱有关.     

新基因水稻 OsLSD1 的克隆及拟南芥和水稻类 LSD1 基因家族的生物信息学分析

类 LSD1 (LSD1-like) 基因家族是一类特殊的 C2C2 型锌指蛋白基因,编码植物特有的转录因子 . 目前已经研究的 2 个成员拟南芥 LSD1 (lesions stimulating disease resistance 1) 和 LOL1 (LSD-One-Like 1) 基因均参与植物细胞程序化死亡 (programmed cell death, PCD) 的调控 . 从水稻 cDNA 文库中克隆到 1 个类 LSD1 基因,命名为 OsLSD1. 该基因长 988 bp ,包含一个 432 bp 的开放阅读框,推导的氨基酸序列 (143 个氨基酸 ) 含有 3 个内部保守的锌指结构域 . DNA 印迹结果表明 OsLSD1 基因在水稻基因组中为单拷贝,且在根、茎和叶中表达 . 借助于生物信息学分析技术,从拟南芥和水稻数据库中各识别出 5 个和 7 个 ( 包括 OsLSD1) 类 LSD1 基因 . 分析了这些类 LSD1 基因的结构,蛋白质结构域组成 . 系统进化分析表明,无论基于编码区的核苷酸或氨基酸序列都可以将这些类 LSD1 基因分为 2 类 . 虽然不存在拟南芥或水稻特有的类 LSD1 蛋白,但有些结构域是水稻所特有的,也有些基因是来源于复制事件 .     

新基因水稻OsLSD1的克隆及拟南芥和水稻类 LSD1基因家族的生物信息学分析

类LSD1 (LSD1-like)基因家族是一类特殊的C2C2型锌指蛋白基因,编码植物特有的转录因子.目前已经研究的2个成员拟南芥LSD1(1esions stimulating disease resistance 1)和LOL1(LSD-One-Like 1)基因均参与植物细胞程序化死亡(programmed cell death,PCD)的调控.从水稻cDNA文库中克隆到1个类LSD1基因,命名为OsLSD1.该基因长988 bp,包含一个432bp的开放阅读框,推导的氨基酸序列(143个氨基酸)含有3个内部保守的锌指结构域.DNA印迹结果表明OsLSD1基因在水稻基因组中为单拷贝,且在根、茎和叶中表达.借助于生物信息学分析技术,从拟南芥和水稻数据库中各识别出5个和7个(包括OsLSD1)类LSD1基因.分析了这些类LSD1基因的结构,蛋白质结构域组成.系统进化分析表明,无论基于编码区的核苷酸或氨基酸序列都可以将这些类LSD1基因分为2类.虽然不存在拟南芥或水稻特有的类LSD1蛋白,但有些结构域是水稻所特有的,也有些基因是来源于复制事件.     

甜荞木瓜类半胱氨酸蛋白酶基因FeRD21的克隆与表达分析（英文）

该研究以旱区小杂粮作物甜荞(Fagopyrum esculentum)为材料,采用同源克隆、RACE技术和实时荧光定量RT-PCR方法,对其半胱氨酸蛋白酶基因(FeRD21)进行了分离和表达分析。结果表明:(1)FeRD21基因cDNA全长1 750bp,包含1个1 407bp的完整开放阅读框,编码468个氨基酸。(2)蛋白序列比对发现,甜荞FeRD21全酶包括信号肽、N末端自主抑制前体区域、蛋白酶、脯氨酸富含结构域和C末端颗粒体蛋白结构域,同时,其蛋白酶结构域包含1个木瓜类蛋白酶家族保守的催化三连体活性位点:Cys168-His304-Asn324。(3)分子系统发生分析证实,其与拟南芥的RD21一致性最高,属类RD21半胱氨酸蛋白酶类。(4)基因表达分析表明,FeRD21能被干旱、高盐、ABA和衰老胁迫诱导。     

甜荞木瓜类半胱氨酸蛋白酶基因FeRD21的克隆与表达分析

该研究以旱区小杂粮作物甜荞(Fagopyrum esculentum)为材料,采用同源克隆、RACE技术和实时荧光定量RT-PCR方法,对其半胱氨酸蛋白酶基因(FeRD21)进行了分离和表达分析。结果表明:(1)FeRD21基因cDNA全长1 750bp,包含1个1 407bp的完整开放阅读框,编码468个氨基酸。(2)蛋白序列比对发现,甜荞FeRD21全酶包括信号肽、N末端自主抑制前体区域、蛋白酶、脯氨酸富含结构域和C末端颗粒体蛋白结构域,同时,其蛋白酶结构域包含1个木瓜类蛋白酶家族保守的催化三连体活性位点:Cys168-His304-Asn324。(3)分子系统发生分析证实,其与拟南芥的RD21一致性最高,属类RD21半胱氨酸蛋白酶类。(4)基因表达分析表明,FeRD21能被干旱、高盐、ABA和衰老胁迫诱导。     

甘蓝型油菜BnCOP1基因编码区全长cDNA的克隆与功能研究

通过分析拟南芥、豌豆、番茄和水稻的COP1 (constitutively photomorphogenic 1) 的cDNA序列, 运用RT-PCR和改进的基因组步行 (genome walking) 技术相结合的方法, 首次从甘蓝型油菜中克隆到油菜 BnCOP1编码区cDNA的全长序列, 其全长2 034 bp, 编码677个氨基酸. 同源 性分析表明, 其编码的氨基酸序列与拟南芥的同源性高达94%. 对BnCOP1编 码序列（cDNA）演绎出的氨基酸序列分析表明, 其编码的蛋白包含有N端的 环形锌指结合域(ring finger zinc binding domain, RING)、中间的卷曲 螺旋形结构域(coiled-coil domain, coiled-coil ), 7个C端的WD-40重复 序列(WD-40 repeats, WD-40)的功能域. 半定量RT-PCR和实时荧光定量PCR 分析该基因在油菜中的表达模式,结果显示, BnCOP1在甘蓝型油菜的各个组 织器官中均有表达,其中在花中的表达明显高于在根、叶、茎、果荚及子叶 和胚轴中,暗示该蛋白可能与开花途径相关. 过表达BnCOP1的转基因拟南芥 植株在高度、主茎的直径和叶片大小上都呈现出比野生型弱小的表型, 表 明BnCOP1抑制了拟南芥光形态建成从而影响了植物的生长发育.     

Structure of the carboxyl-terminal half of human alpha 2-plasmin inhibitor deduced from that of cDNA

A 1.7 kilobase cDNA clone isolated from a human liver cDNA library contained 822 nucleotides encoding the carboxyl-terminal 274 amino acid sequence of alpha 2-plasmin inhibitor, a stop codon and a 3' noncoding region of 0.9 kilobases. The amino acid sequence deduced from the cDNA shows 29-31% homology with those of other plasma protease inhibitors. The inhibitor's putative reactive-site peptide bond was Met-Ser, and the Met residue was located at the 91st position from the carboxyl-terminal end. The plasminogen binding site was located in the carboxyl-terminal region.     

GTPase activity and biochemical characterization of a recombinant cotton fiber annexin

A cDNA encoding annexin was isolated from a cotton (Gossypium hirsutum) fiber cDNA library. The cDNA was expressed in Escherichia coli, and the resultant recombinant protein was purified. We then investigated some biochemical properties of the recombinant annexin based on the current understanding of plant annexins. An "add-back experiment" was performed to study the effect of the recombinant annexin on beta-glucan synthase activity, but no effect was found. However, it was found that the recombinant annexin could display ATPase/GTPase activities. The recombinant annexin showed much higher GTPase than ATPase activity. Mg2+ was essential for these activities, whereas a high concentration of Ca2+ was inhibitory. A photolabeling assay showed that this annexin could bind GTP more specifically than ATP. The GTP-binding site on the annexin was mapped into the carboxyl-terminal fourth repeat of annexin from the photolabeling experiment using domain-deletion mutants of this annexin. Northern-blot analysis showed that the annexin gene was highly expressed in the elongation stages of cotton fiber differentiation, suggesting a role of this annexin in cell elongation.     

陆地棉叶绿体铜锌超氧化物歧化酶基因的克隆与表达

以陆地棉‘CRI36＇的叶片为材料,使用RACE技术克隆到了棉花叶绿体Cu/Zn-SOD酶基因。基因序列全长共1 043 bp,含有完整的开放阅读框。推导的氨基酸序列分析显示含有叶绿体信号肽,和已知植物的叶绿体Cu/Zn-SOD酶蛋白的氨基酸残基的同源性在66%～74%之间。基因的表达谱分析显示：棉花叶绿体Cu/Zn-SOD酶基因主要在叶片、茎中表达,根、花和下胚轴中没有检测到信号,即基因的表达主要在棉花的绿色组织。不同生育期的表达谱结果证实：该基因主要在苗期表达,以后表达逐渐减少。用pET-21a（＋）构建了原核表达载体,在大肠杆菌BL21（DE3）的表达结果显示：表达后得到一个29.0 kD的新蛋白,其分子量与预期目标一致。对SOD酶活性的分析证实,重组菌的酶活性显著增加,证明克隆的基因具有活性。     

Molecular cloning of a cysteine proteinase cDNA from the cotton boll weevil Anthonomus grandis (Coleoptera: Curculionidae)

The cotton boll weevil (Anthonomus grandis) causes severe cotton crop losses in North and South America. This report describes the presence of cysteine proteinase activity in the cotton boll weevil. Cysteine proteinase inhibitors from different sources were assayed against total A. grandis proteinases but, unexpectedly, no inhibitor tested was particularly effective. In order to screen for active inhibitors against the boll weevil, a cysteine proteinase cDNA (Agcys1) was isolated from A. grandis larvae using degenerate primers and rapid amplification of cDNA ends (RACE) techniques. Sequence analysis showed significant homologies with other insect cysteine proteinases. Northern blot analysis indicated that the mRNA encoding the proteinase was transcribed mainly in the gut of larvae. No mRNA was detected in neonatal larvae, pupae, or in the gut of the adult insect, suggesting that Agcys1 is an important cysteine proteinase for larvae digestion. The isolated gene will facilitate the search for highly active inhibitors towards boll weevil larvae that may provide a new opportunity to control this important insect pest.     

Two genes encode the two subunits of cottonseed catalase

The isolation and sequence of a cDNA encoding a developmentally distinct subunit of cottonseed catalase are presented. A 1.8-kb cDNA was selected from a cDNA library constructed with poly(A)+ RNA isolated from 3-day-old dark-grown cotyledons in which a second subunit (designated SU 2 in an earlier publication) of catalase was predominantly synthesized. The cDNA encodes a 492-amino acid peptide with a calculated Mr of 56,900. The nucleotide sequence is 76% identical to a cDNA encoding another subunit (SU 1) which was predominantly synthesized in 1-day-old-cotyledons. Most of the divergence occurs in the 5' and 3' non-coding regions, and at the third positions of the codons. The deduced amino acid sequence is 92% identical to that of SU 1. Denaturing isoelectric focusing and SDS-PAGE of products transcribed and translated in vitro from these cDNAs revealed that the cDNA selected from the "1-day" library encoded SU 1 and the cDNA selected from the "3-day" library (this paper) encoded SU 2 of catalase. These data and results from Southern blot analyses of genomic DNA indicate that there are two genes encoding catalase subunits in cotton cotyledons, with only one copy of SU 1 and at least two copies of SU 2 in the genome. A peroxisomal targeting signal, e.g., Ser-Lys-Leu, is not located at the C-terminus of either subunit, or within 25 residues of the C-terminus of SU 1, although it occurs at six residues upstream from the C-terminus of SU 2. A possible location of a targeting sequence for catalase and other peroxisomal proteins lacking the C-terminal tripeptide motif is proposed.     

Endofin recruits TOM1 to endosomes

Endofin is an endosomal protein implicated in regulating membrane trafficking. It is characterized by the presence of a phosphatidylinositol 3-phosphate-binding FYVE domain positioned in the middle of the molecule. To determine its potential effectors or binding partners, we used the carboxyl-terminal half of endofin as bait to screen a human brain cDNA library in a yeast two-hybrid system. Three clones that encode TOM1 were recovered. TOM1 is a protein closely related to the VHS (VPS-27, Hrs, and STAM) domain-containing GGA family. Although the function of the GGAs in mediating Golgi to lysosomal trafficking is well established, the subcellular localization and function of TOM1 remain unknown. Glutathione S-transferase pull-down assays as well as co-immunoprecipitation experiments confirmed that the carboxyl-terminal half of endofin binds specifically to the carboxyl-terminal region of TOM1. Neither SARA nor Hrs, two other FYVE domain proteins, interact with this region of TOM1. Moreover, endofin does not interact with the analogous region of two other members of the TOM1 protein family, namely, TOM1-like 1 (TOM1-L1) or TOM1-like 2 (TOM1-L2). The carboxyl-terminal region of TOM1 was used as immunogen to generate TOM1-specific antibody. This antibody can distinguish TOM1 from the other family members as well as coimmunoprecipitate endogenous endofin. It also revealed the primarily cytosolic distribution of TOM1 in a variety of cell types by immunofluorescence analyses. In addition, sucrose density gradient analysis showed that both TOM1 and endofin can be detected in cellular compartments marked by the early endosomal marker EEA1. A marked recruitment of TOM1 to endosomes was observed in cells overexpressing endofin or its carboxyl-terminal fragment, indicating TOM1 to be an effector for endofin and suggesting a possible role for TOM1 in endosomal trafficking.     

Structures and properties of seven isoforms of the NMDA receptor generated by alternative splicing.

We here report the existence of 6 additional isoforms of the NMDA receptor generated via alternative splicing by molecular analysis of cDNA clones isolated from a rat forebrain cDNA library. These isoforms possess the structures with an insertion at the extracellular amino-terminal region or deletions at two different extracellular carboxyl-terminal regions, or those formed by combinations of the above insertion and deletions. One of the deletions results in the generation of a new carboxyl-terminal sequence. All these isoforms possess the ability to induce electrophysiological responses to NMDA and respond to various antagonists selective to the NMDA receptor in the Xenopus oocyte expression system. In addition, a truncated form of the NMDA receptor also exists that contains only the extreme amino-terminal sequence of this protein molecule. These data indicate that the NMDA receptor consists of heterogeneous molecules that differ in the extracellular sequence of the amino- and carboxyl-terminal regions.     

Osteogenesis imperfecta type IV. Detection of a point mutation in one alpha 1(I) collagen allele (COL1A1) by RNA/RNA hybrid analysis

We have identified a point mutation in one alpha 1(I) collagen allele (COL1A1) of a child with the type IV osteogenesis imperfecta phenotype. When compared to parental and control samples, skin fibroblasts of the proband synthesized two populations of type I collagen molecules. One population was normal; the other was delayed in secretion and electrophoretic migration due to post-translational overmodification. Two-dimensional gel electrophoresis of the CNBr peptides demonstrated a gradient of overmodification beginning near the carboxyl-terminal CB peptides. This predicts that the mutation delaying helix formation is near the carboxyl-terminal end of one of the component chains of type I collagen. The mRNA of the patient was probed with overlapping antisense riboprobes to type I collagen cDNA. Cleavage of a mismatch in RNA/RNA hybrids of RNase A allowed the location of the mutation to a 225-base pair region of alpha 1(I) cDNA. The mismatch was not present in RNA/RNA hybrids from either parent. This region of both alpha 1(I) alleles of the patient was isolated by screening a lambda ZAP cDNA library. Sequence determination of both alleles demonstrated a single nucleotide change, G----A, resulting in the substitution of a serine for a glycine at amino acid residue 832. This point mutation occurs in the coding region for alpha 1(I) CB6 and is concordant with the protein data. The finding of a glycine substitution in an alpha 1(I) chain of a patient with the milder type IV osteogenesis imperfecta phenotype requires modification of current molecular models for types II and IV osteogenesis imperfecta.