Functional complementation of a yeast vesicular transport mutation ypt1-1 by a Brassica napus cDNA clone encoding a small GTP-binding protein

A cDNA clone (bra) encoding a small GTP-binding protein was isolated from Brassica napus by screening a root cDNA library with a degenerate oligonucleotide probe that corresponds to a highly conserved GTP-binding domain of the Ras superfamily. Sequence analysis shows that the clone contains an open reading frame of 219 amino acid residues with the estimated molecular mass of 24379 Da and this coding region contains all the conserved motifs of the Ras superfamily. The deduced amino acid sequence of the bra gene is most closely related to the Ypt/Rab family that functions in the vesicular transport (46% and 47% amino acid identity to the yeast Ypt1 and to the human Rab1, respectively) and is more distantly related to the other Ras-related families. The protein encoded by the bra gene, when expressed in Escherichia coli, shows the ability to bind GTP. Furthermore, when the bra gene is introduced into Saccharomyces cerevisiae under the regulation of the yeast GAL1 promoter, the gene can complement the temperature-sensitive yeast mutation ypt1-1 that has defects in vesicular transport function. The amino acid sequence similarity and the functional complementation of the yeast mutation suggest that this gene is likely to be involved in the vesicular transport in plants. Genomic Southern analysis shows that this gene is a member of a small gene family in Brassica napus.     

巴西橡胶Pto类抗病同源序列的克隆与系统发育重建

番茄Pto基因是一类可以编码丝氨酸/苏氨酸激酶(STK)序列的广谱抗性候选基因,其序列克隆与鉴定为深入了解番茄的抗病机制奠定了基础.在该研究中,一对依据Pto基因的保守序列设计的简并引物被用来扩增巴西橡胶中Pto基因抗病同源序列,扩增得到了一个约550 bp的基因片段,其随后被克隆并测序.序列分析发现,其中的7个抗病同源序列与Pto基因高度同源(BLASTX E value <3e-53),所以其被认为是Pto基因抗病同源序列(Pto-RGCs).通过巴西橡胶的Pto-RGCs多序列比对表明,这些序列包含了多个STKs保守的次级结构域.此外,系统发育分析也表明,巴西橡胶的Pto-RGCs属于Pto基因同源的R基因.该研究结果中Pto-RGCs可为巴西橡胶抗病的发展提供一个有效的基因资源.     

Sequence of a novel plant ras-related cDNA from Pisum sativum

A clone isolated from a purple podded pea (Pisum sativum L.) cDNA library was shown to contain the complete coding sequence of a polypeptide with considerable homology to various members of the ras superfamily. The ras superfamily are a group of monomeric GTP-binding proteins of 21–25 kDa found in eukaryotic cells. Conserved sequences in the isolated clone include the GTP-binding site, GDP/GTP hydrolysis domain and C-terminal Cys residues involved in membrane attachment. Comparisons of the predicted amino acid sequence with those of other ras proteins show significantly higher homologies (ca. 70%) to two mammalian gene products, those of the BRL-ras oncogene, and the canine rab7 gene, than to any of the plant ras gene products so far identified (<40% homology). The high percentage of amino acid identity suggests that this cDNA may be the product of a gene, designated Psa-rab, which is the plant counterpart of rab7. Rab/ypt proteins are a subfamily of the ras superfamily thought to be involved in intracellular transport from the endoplasmic reticulum to the Golgi apparatus and in vesicular transport.Northern blot hybridisation analysis of total RNA from green and purple podded pea revealed a mRNA species of approximately the same size as the isolated cDNAs.     

Molecular cloning of a maltose transport gene from Bacillus stearothermophilus and its expression in Escherichia coli K-12

Genes responsible for maltose utilization from Bacillus stearothermophilus ATCC7953 were cloned in the plasmid vector pBR325 and functionally expressed in Escherichia coli. The 4.2 kb Bacillus DNA insert in clone pAM1750 suppressed the growth defects on maltose caused by mutations in E. coli maltose transport genes (malE, malK or complete malB deletion) but not mutations in genes affecting intracellular maltose metabolism (malA region). Transport studies in E. coli and B. stearothermophilus suggested that pAM1750 codes for a high affinity transport system, probably one of two maltose uptake systems found in B. stearothermophilus ATCC7953. Nucleotide sequence analysis of a 3.6 kb fragment of pAM 1750 revealed three open reading frames (ORFs). One of the ORFs, malA, encoded a putative hydrophobic protein with 12 potential transmembrane segments. MalA showed amino acid sequence similarity to proteins in the superfamily containing LacY lactose permease and also some similarity to MaIG protein, a member of a binding protein-dependent transport system in E. coli. The products of two other ORFs were not hydrophobic, did not show similarity to other known sequences and were found not to be essential for maltose utilization in transport-defective E. coli mutants. Hence MalA protein was the only protein necessary for maltose transport, but despite giving a detectable but low level of transport function in E. coli, the protein was very poorly expressed and could not be identified.     

Hexose transporters of tomato: molecular cloning,expression analysis and functional characterization

A full-length (LeHT2) and two partial (LeHT1 and LeHT3) cDNA clones, encoding hexose transporters, were isolated from tomato (Lycopersicon esculentum) fruit and flower cDNA libraries. Southern blot analysis confirmed the presence of a gene family of hexose transporters in tomato consisting of at least three members. The full-length cDNA (LeHT2) encodes a protein of 523 amino acids, with a calculated molecular mass of 57.6 kDa. The predicted protein has 12 putative membrane-spanning domains and belongs to the Major Facilitator Superfamily of membrane carriers. The three clones encode polypeptides that are homologous to other plant monosaccharide transporters and contain conserved amino acid motifs characteristic of this superfamily. Expression of the three genes in different organs of tomato was investigated by quantitative PCR. LeHT1 and LeHT3 are expressed predominantly in sink tissues, with both genes showing highest expression in young fruit and root tips. LeHT2 is expressed at relatively high levels in source leaves and certain sink tissues such as flowers. LeHT2 was functionally expressed in a hexose transport-deficient mutant (RE700A) of Saccharomyces cerevisiae. LeHT2-dependent transport of glucose in RE700A exhibited properties consistent with the operation of an energy-coupled transporter and probably a H⁺/hexose symporter. The K _m of the symporter for glucose is 45 M.     

Expression of a tomato sugar transporter is increased in leaves of mycorrhizal or Phytophthora parasitica-infected plants

A full-length cDNA clone (LeST3), encoding a putative tomato sugar transporter, was isolated from mycorrhizal roots by using a PCR-based approach. Based on sequence similarity, conserved motifs and predicted membrane topology, LeST3 was classified as a putative monosaccharide transporter of the sugar transporter subgroup of the major facilitator superfamily. Southern blot analysis showed that LeST3 represents a single-copy gene in tomato. To investigate its function, LeST3 was expressed in a hexose transport-deficient mutant of Saccharomyces cerevisiae. Although LeST3 was correctly transcribed in yeast, it did not restore growth on hexoses of the S. cerevisiae mutant. LeST3 gene expression was increased in the leaves of plants colonised by the arbuscular mycorrhizal (AM) fungi Glomus mosseae or Glomus intraradices and in those of plants infected with the root pathogen Phytophthora parasitica. These data suggest that LeST3 plays a role in the transport of sugars into the sink tissues and responds to the increased demand for carbohydrates exerted by two AM fungi and by a root pathogen to cope with the increased metabolic activity of the colonised/infected tissues or to supply carbohydrates to the AM fungus.     

番茄中Rpi-blb2同源基因的挖掘与鉴定

番茄晚疫病是番茄生产中的主要病害之一,经常会造成较大的经济损失。晚疫病生理小种的变异和进化常会导致番茄品种原有的遗传抗性丧失,因此不断挖掘新的抗性基因,改良番茄晚疫病抗性是番茄抗病育种的长期任务。该研究采用BLAST同源比对的方法,以马铃薯野生近缘种的晚疫病抗性蛋白序列Rpi-blb2为种子序列,在NCBI蛋白质序列数据库中检索得到11条番茄蛋白质序列,这些序列与种子序列相似性为78%~83%,属于番茄疾病抗性蛋白家族,并对该家族成员进行了基因结构、基因定位、序列保守结构域和进化关系等分析。结果表明:该家族中10条序列分布在第Ⅵ条染色体上,1条分布在第Ⅴ染色体上;6号染色体上的10序列呈现2个抗病基因簇分布,在染色体上分别占据2个和3个基因位点;10条同源蛋白是Rpi-blb2的共同垂直同源蛋白,但不具有平行同源关系,大多数成员定位于细胞质。按照蛋白质保守结构域和基因定位的不同可分为三类,第一类共4条系列,包含有DUF3542和NB-ARC两个保守结构域特征序列;第二类共6条序列,与马铃薯Rpi-blb2蛋白一样,仅包含NB-ARC保守结构域特征序列,在这2类蛋白序列的NB-ARC结构域均位于序列中部;第三类(仅包含XP_004239406.1)虽然也具有与第一类蛋白相似的DUF3542和NB-ARC结构域,但在结构域两端的非保守区序列较短,且位于5号染色体上,因此将其单独归为1类。前两类蛋白成员相应的基因具有1~2个内含子,第3类蛋白不含内含子。该研究结果为利用生物技术选育番茄抗性品种提供了理论基础。     

A new transmembrane 4 superfamily molecule in the nematode,Caenorhabditis elegans

Transmembrane 4 superfamily (TM4SF) molecules are predominantly mammalian cell surface glycoproteins that are thought to transduce signals mediating cell development, activation, and motility. Analysis of the Genpept sequence database reveals YKK8, a novel member of the TM4SF in the nematode,Caenorhabditis elegans. YKK8 is a putative 27.4-kDa protein encoded by a gene on chromosome III of theC. elegans genome (Wilson et al. [1994]Nature 368:32–38). The assignment of YKK8 to the TM4SF is justified by three criteria: statistical comparison of protein sequences, conserved TM4SF protein sequence motifs, and conserved TM4SF intron/exon boundaries in the genomic sequence. The discovery of a TM4SF molecule in the nematode extends this superfamily to a more primitive branch of the phylogenetic tree and suggests a fundamental role for TM4SF molecules in biology. Correspondence to: M.G. Tomlinson     

Cloning and complete nucleotide sequence of the Escherichia coli glutamine permease operon (glnHPQ)

Summary The glutamine permease operon encoding the high-affinity transport system of glutamine in Escherichia coli could be cloned in one of the mini F plasmids, but not in pBR322 or pACYC184, by selection for restoration of the Gln⁺ phenotype, the ability to utilize glutamine as a sole carbon source. We determined the nucleotide sequence of the glutamine permease operon, which contains the structural gene of the periplasmic glutamine-binding protein (glnH), an indispensable component of the permease activity. The N-terminal amino acid sequence and the overall amino acid composition of the purified glutamine-binding protein were in good agreement with those predicted from the nucleotide sequence, if the N-terminal 22 amino acid residues were discounted. The latter comprised two Lys residues (nos. 2 and 6) followed by 16 hydrophobic amino acid residues and was assumed to be a signal peptide for transport into the periplasmic space. There were two additional reading frames (glnP and glnQ) downstream of glnH sharing a common promoter. It was concluded that the glnP and glnQ proteins as well as the glnH protein are essential for glutamine permease activity.     

Molecular characterization of a gene encoding a cysteine-rich protein preferentially expressed in anthers of Lycopersicon esculentum

The tomato (Lycopersicon esculentum Mill.) cDNA clone TomA5B was isolated by differential screening of a cDNA library prepared from anthers at late meiosis to tetrad formation. The 5B gene is present in a single copy in the tomato genome. Expression is developmentally regulated and tissue specific. RNA accumulation was detected from premeiosis through tetrad release in the tapetal cell layer of the anther with low levels of RNA detected in petals and early stages of pistil development. The protein deduced from the DNA sequence analysis is predicted to have a molecular mass of 11.1 kDa and a secretory signal sequence, suggesting it is a secreted protein. The deduced 5B protein has a pattern of cysteine residues that is similar to other proteins that have stamen-specific expression and to a superfamily of seed proteins. The 5B protein is unique in that there is no amino acid sequence similarity to other proteins beyond the similar cysteine motif.     

Ripening-related occurrence of phosphoenolpyruvate carboxykinase in tomato fruit

Phosphoenolpyruvate carboxykinase (PEPCK) is present in ripening tomato fruits. A cDNA encoding PEPCK was identified from a PCR-based screen of a cDNA library from ripe tomato fruit. The sequence of the tomato PEPCK cDNA and a cloned portion of the genomic DNA shows that the complete cDNA sequence contains an open reading frame encoding a peptide of 662 amino acid residues in length and predicts a polypeptide with a molecular mass of 73.5 kDa, which corresponds to that detected by western blotting. Only one PEPCK gene was identified in the tomato genome. PEPCK is shown to be present in the pericarp of ripening tomato fruits by activity measurements, western blotting and mRNA analysis. PEPCK abundance and activity both increased during fruit ripening, from an undetectable amount in immature green fruit to a high amount in ripening fruit. PEPCK mRNA, protein and activity were also detected in germinating seeds and, in lower amounts, in roots and stems of tomato. The possible role of PEPCK in the pericarp of tomato fruit during ripening is discussed.     

Deficiency of essential GTP-binding protein ObgE in Escherichia coli inhibits chromosome partition

GTP-binding proteins are involved in cell proliferation, development, signal transduction, protein elongation, etc. and construct the GTPase superfamily, whose structures and sequence motifs (G-1 to G-5) are highly conserved from prokaryote to eukaryote. Obg of Bacillus subtilis and Obg homologues of other bacteria belong to the GTPase superfamily and have been suggested as being essential for cell growth, development and monitoring of intracellular levels of GTP. We identified the Obg homologue in Escherichia coli, a protein previously known as YhbZ, which we have renamed ObgE. Double cross-over experiments showed that the obgE gene is essential for growth in E. coli. From characterization of the obgE temperature-sensitive mutant, we found that DNA replication was not inhibited, that the nucleoids did not partition and instead remained in the middle of cell, and that the cells elongated. Overproduction of ObgE also resulted in aberrant chromosome segregation. These data suggested that ObgE is involved directly or indirectly in E. coli chromosome partitioning. Characterization studies showed that ObgE is abundant in normal cells, partially associated with the membrane and does not associate with ribosomes such as in Obg of B. subtilis. We purified ObgE protein from a cell extract of E. coli, and the purified ObgE had GTPase activity and DNA-binding ability.     

A novel MFS transporter encoding gene in Fusarium verticillioides probably involved in iron-siderophore transport

The major facilitator superfamily (MFS) is a ubiquitous group of proteins involved in the transport of a wide range of compounds, including toxins produced by fungal species. In this paper, a novel MFS encoding gene (Fusarium iron related gene or FIR1), which had shown an up-regulation in fumonisin-inducing conditions, has been identified and characterized. The deduced protein sequence, which predicted 14 transmembrane domains typical of MFS transporters and its phylogenetic relationships with representative members of MFS transporters suggested a possible function of FIR1 as a siderophore transporter. A real-time RT-PCR protocol has been developed to analyse the expression pattern of the FIR1 gene in relation to siderophore production. The results indicated that the synthesis of extracellular siderophores by F. verticillioides observed in absence of extracellular iron was repressed in iron-supplemented cultures and showed a good correspondence with FIR1 gene expression. However, the pattern of FIR1 gene expression observed suggested that this gene did not seem to be functionally related to fumonisin production.     

Structural and functional characterisation of the signal recognition particle-specific 54 kDa protein (SRP54) of tomato

Two representative genes for the 54 kDa protein subunit of the signal recognition particle (SRP54) of tomato were cloned. It was shown that both genes are expressed in the tomato cv. Rentita. SRP54 is encoded by nine exons distributed over 10 kb of genomic sequence. The amino acid sequences deduced for the two SRP54 genes are 92% identical and the calculated protein size is 55 kDa. Like the homologous proteins isolated from other eukaryotes, the tomato SRP54 is evidently divided into two domains. As deduced from sequence motif identity, the N-terminally located G-domain can be assumed to have GTPase activity. The C-terminal part of the protein is methionine rich (14% methionine) and represents the M-domain. In in vitro binding experiments, SRP54 of tomato was able to attach to the 7S RNA of tomato, its natural binding partner in the SRP. This interaction can only take place in a trimeric complex consisting of 7S RNA, SRP54 and SRP19. The latter protein subunit of the SRP complex is assumed to induce a conformational change in the 7S RNA. The human SRP19 was able to mediate the binding of the tomato SRP54 to the 7S RNA, irrespective of whether this latter originated from tomato or man.     

Cloning and analysis of a defender against apoptotic cell death (DAD1) homologue from tomato

A cDNA clone homologous to the human defender against apoptotic cell death (DAD1) gene, which is believed to be a conserved inhibitor of programmed cell death, was isolated from tomato (Lycopersicon esculentum cv. Prisca). The 351 basepairs open reading frame predicted a 116 amino acid protein sequence (LeDAD1) that showed high homology to other DAD1 proteins. Northern analysis revealed that LeDAD1 was constitutively expressed during ripening of wildtype, rin,andNr tomato fruit.     

The yeast RNA1 protein, necessary for RNA processing, is homologous to the human ribonuclease/angiogenin inhibitor (RAI)

Summary Mutations in theRNA1 gene ofSaccharomyces cerevisiae, which encodes an essential cytosolic protein, affect the production and processing of all major classes of RNA. The mechanisms underlying these effects are not at all understood. Detailed comparative sequence analyses revealed that the RNA1 protein belongs to a superfamily, the members of which contain repetitive leucine-rich motifs (LRM). Within this superfamily RNA1 is most closely related to the ribonuclease/angiogenin inhibitor (RAI), which is a tightly binding inhibitor of ribonucleolytic activities in mammals. These results not only provide important clues to the structure, function and evolution of the RNAI protein, but also have intriguing implications for possible novel functions of RAI.     

龙眼体胚发生相关未知蛋白DlUP-3基因的克隆与表达分析

在龙眼体胚发生早期的蛋白质组学研究中,发现1个体胚发生相关未知蛋白DlUP-3,通过简并引物结合RACE技术进行其基因全长序列克隆。结果显示:(1)克隆到的龙眼体胚发生相关未知蛋白基因DlUP-3的全长cDNA序列为1 681bp,开放阅读框由1 017个核苷酸组成,编码338个氨基酸(GenBank登录号为GQ167202)。(2)生物信息学分析发现,该基因推导蛋白分子量为36 854.2Da,pI为9.05;该蛋白为Ras蛋白质家族成员,具有ATP/GTP-binding site motif A(P-loop)结合位点和1个典型的Ras_like_GTPase superfamily组件,无典型信号肽结构,但有跨膜螺旋的亲水性蛋白;不规则卷曲是其最大量的结构元件,散布于整个蛋白质中。(3)实时荧光定量PCR分析显示,该基因在龙眼体胚发生过程中均有表达,其中以胚性愈伤组织阶段表达量最低,而球形胚阶段最高。研究表明,DlUP-3基因在龙眼体胚发生过程尤其是球形胚阶段有重要的作用,为进一步研究该基因在龙眼体胚发生过程中的功能奠定了基础。     

Characterization of the Porphyromonas gingivalis FtsZ Containing a Novel GTPase Activity

The FtsZ protein is a GTPase that is essential for cell division. We have cloned, sequenced, and expressed the FtsZ (PgFtsZ) gene from the Porphyromonas gingivalis, an oral, anaerobic, rod-shaped bacterium implicated in progressive periodontal disease. The PgFtsZ gene consisted of 1374 bp and coded for an acidic protein with a calculated molecular mass of 50,253 Da. The deduced amino acid sequence exhibited a significant homology with E. coli FtsZ (54% identical residues). Like other prokaryotic FtsZs, PgFtsZ possessed the clear motifs for GTP binding (GGGTGTG) and hydrolysis (NLDFADV). When PgFtsZ was overexpressed in E. coli, cell division was inhibited. Recombinant PgFtsZ was purified to homogeneity and characterized. The purified PgFtsZ exhibited GTPase activity even in the absence of Mg²⁺, and completely retained its activity with EDTA. Furthermore, Na⁺ and K⁺ ions inhibited its GTPase activity in a dose-dependent manner. These results suggest that PgFtsZ contains an atypical GTPase activity that has not been previously described. Received: 25 May 2001 / Accepted: 8 August 2001