Cloning, characterization and expression analysis of a sucrose synthase gene from tropical epiphytic orchid Oncidium Goldiana

A full-length cDNA encoding sucrose synthase was isolated from the tropical epiphytic orchid Oncidium Goldiana. The cDNA is 2829 bp in length containing an open reading frame of 2447 bp encoding 816 amino acids with a predicted molecular mass of 93.1 kDa. The deduced amino acid sequence of O . Goldiana sucrose synthase ( Osus ) shares more than 80% identity with those from other monocotyledonous plants. The sucrose synthase gene was demonstrated to encode a functional sucrose synthase protein by expression as recombinant protein in Escherichia coli . The Osus mRNA is present in all the tissues analysed, with the highest levels in strong sinks such as developing inflorescence and root tips. Incubation with sucrose or glucose resulted in a significant increase in the steady-state Osus mRNA levels in root tips and mature leaves in a similar pattern to maize Sus1 . Expression of the Osus mRNA in mature leaves was markedly enhanced by anaerobic conditions and elevated CO₂. The expression pattern and regulation of the gene suggest that the sucrose synthase plays an important role in the growth and development of the tropical epiphytic orchid O . Goldiana.     

Molecular Cloning of ADP-Glucose Pyrophosphorylase Large Subunit cDNA from Oncidium

A full-length cDNA for ADP-glucose pyrophosphorylase large subunit (AGPL) was isolated from tropical epiphytic orchid Oncidium hybrid Goldiana. The cDNA was 1754 bp in length with an open reading frame of 1551 bp encoding 517 amino acids. The deduced amino acid sequence showed 73 % identity with those of potato isoform 3 (AGPL3) and Arabidopsis thaliana isoform 1 (AGPL1), 71 % identity with that of barley isoform BLPL. RT-PCR analysis showed that AGPL was expressed in mature leaf, immature leaf, developing inflorescence and flower of Oncidium. No expression was detected in roots.     

Cloning, characterization and tissue specific expression of a sucrose synthase gene from tropical epiphytic CAM orchid Mokara Yellow

A full-length cDNA encoding sucrose synthase was isolated from the tropical epiphytic CAM orchid Mokara Yellow. The cDNA is 2748bp in length containing an open reading frame of 2447bp encoding 816 amino acids with a predicted molecular mass of 93.1 kDa. The deduced amino acid sequence of M. Yellow sucrose synthase (Msus1) shares more than 80% identity with those from other monocotyledonous plants. The sucrose synthase gene was demonstrated to encode a functional sucrose synthase protein by expression as recombinant protein in Escherichia coli. Northern blot analysis showed that the expression pattern of Msus1 mRNA is tissue specific with highest levels in strong sinks such as expanding leaves and root tips, but not detectable in mature leaves and flowers. Incubation with sugars resulted in a significant increase in the steady-state Msus1 mRNA levels in shoots of seedlings.     

Cloning and expression of a prokaryotic sucrose-phosphate synthase gene from the cyanobacterium Synechocystis sp. PCC 6803

Sucrose is one of several low-molecular-weight compounds that cyanobacteria accumulate in response to osmotic stress and which are believed to act as osmoprotectants. The genome of the cyanobacterium Synechocystis sp. PCC 6803 contains a 2163 bp open reading frame (ORF) that shows similarity to genes from higher plants encoding sucrose-phosphate synthase (SPS), the enzyme responsible for sucrose synthesis. The deduced amino acid sequence shows 35–39% identity with known higher-plant SPS sequences. The putative Synechocystis sps gene was cloned from genomic DNA by PCR amplification and expressed as a His₆-tagged amino-terminal fusion protein in Escherichia coli. The expressed protein was purified and shown to be a functional SPS enzyme, confirming the identity of the ORF, which is the first sps gene to be cloned from a prokaryotic organism. The Synechocystis SPS has a molecular mass of 81.5 kDa, which is smaller than the typical higher-plant SPS subunit (117–119 kDa), and lacks the phosphorylation site motifs associated with light- and osmotic stress-induced regulation of SPS in higher plants. The enzyme has K_m values for UDPG1c and Fru6P of 2.9 mM and 0.22 mM, respectively, with a V_max of 17 mol per minute per mg protein and a pH optimum of 8.5. Unlike the higher-plant enzyme, ADPG1c, CDPG1c and GDPG1c can substitute for UDPG1c as the glucosyl donor with K_m values of 2.5, 7.2 and 1.8 mM, respectively. The enzyme is activated by Mg²⁺ but not by G1c6P, and is only weakly inhibited by inorganic phosphate. The purified protein was used to raise a high-titre antiserum, which recognises a low-abundance 81 kDa protein in Synechocystis sp. PCC 6803 extracts. There was no apparent increase in expression of the 81 kDa protein when the cells were exposed to moderate salt stress, and SPS activity was very low in extracts from both unstressed and salt- stressed cells. These results and the lack of evidence for sucrose accumulation in Synechocystis sp. PCC6803 lead to the conclusion that expression of the sps gene plays no obvious role in adaptation to osmotic stress in this species.     

Molecular Cloning of a Phosphoenolpyruvate Carboxylase cDNA from Tropical Epiphytic CAM Orchid

A full-length cDNA encoding phosphoenolpyruvate carboxylase (PEPC) was isolated from tropical epiphytic CAM orchid Mokara Yellow. The cDNA designated as Mpepc1 is 3 450 bp in length with an open reading frame of 2 862 bp encoding 954 amino acids. The deduced amino acid sequence of Mpepc1 shows 83 % identity with pepc2 of sorghum, 82 % with pepc1 and pepc2 of maize and 81 % with pepc of Arabidopsis thaliana. RT-PCR analysis showed that Mpepc1 was expressed in mature leaves, immature leaves, and aerial roots of M. Yellow. No expression was detected in the flower.     

Molecular cloning and characterization of a nonsymbiotic hemoglobin gene (GLB1) from Malus hupehensis Rehd. with heterologous expression in tomato

Nonsymbiotic hemoglobins (nsHbs) are involved in a variety of cellular processes in plants. Previous studies indicate that nsHb expression improves plant tolerance during waterlogging and hypoxia. In the present work, the nsHb class-1 coding sequence was cloned from Malus hupehensis Rehd. var. pinyiensis Jiang and subsequently named MhGLB1. The results elucidated the expressed characteristics and physiological effects of MhGLB1. The full-length cDNA contained a 477 bp open reading frame encoding a protein with a molecular mass of 17.8 KDa with 158 amino acids. Quantitative real-time PCR analysis showed that MhGLB1 expresses in roots, stems and leaves growing under normal and nitrate-induced conditions. Hypoxic stress induced accumulation of MhGLB1 within 12 h, and abscisic acid significantly induced expression of MhGLB1 in roots. The photosynthetic, transpiration and stomatal conductance rates of transgenic MhGLB1 tomato plants decreased more slowly than that of wild-type plants under waterlogging treatment. These results indicated that the MhGLB1 gene has an important role in hypoxia.     

Molecular cloning and characterization of 4-hydroxyphenylpyruvate dioxygenase gene from Lactuca sativa

Vitamin E has been found to be associated with an important antioxidant property in mammals and plants. In photosynthetic organisms, the enzyme 4-hydroxyphenylpyruvate dioxygenase (HPPD; E.C. 1.13.11.27) plays an important role in the vitamin E biosynthetic pathway. The full-length cDNA encoding HPPD was isolated from Lactuca sativa L. by rapid amplification of cDNA ends (RACE). The cDNA, designated as LsHPPD, was 1743 base pairs (bp) long containing an open reading frame (ORF) of 1338 bp encoding a protein of 446 amino acids. Sequence analysis indicated that LsHPPD shared high identity with HPPD from Medicago truncatula L. Real-time fluorescent quantitative PCR (qPCR) analysis revealed that LsHPPD was preferentially expressed in mature leaves compared with other tissues and that the LsHPPD expression was sensitive to high light and drought stress treatments. Transient expression of LsHPPD via agroinfiltration resulted in 12-fold increase in LsHPPD mRNA expression level and 4-fold enhancement in α-tocopherol content compared with the negative control. A decrease in chlorophyll content and inhibition of photosystem II were observed during stress treatments and agroinfiltration.     

小黑杨环锌指蛋白基因的克隆与表达分析

用cDNA-AFLP技术从小黑杨中克隆与盐胁迫反应相关的cDNA片段,进一步应用RACE技术克隆出具有完整开放读码框的小黑杨环锌指蛋白基因（PsnRZF）,该基因全长1061bp,其中5非翻译区为184bp,3非翻译区为82bp,开放读码框为795bp,编码264个氨基酸,预测蛋白的分子量为30.25kDa,理论等电点为8.04。实时定量PCR检测的结果显示,正常生长条件下该基因在根、茎、叶中都表达;NaCl胁迫下,该基因在根、茎、叶中的表达量升高。在叶中的表达量随着处理时间的延长而逐渐升高,胁迫处理后第6天表达量达到最高。     

大蕉苯丙氨酸解氨酶基因的克隆、鉴定和表达分析

为了研究苯丙氨酸解氨酶基因与大蕉(Musa ABB cv. Dongguandajiao)抗枯萎病的关系,利用 RT-PCR 和 RACE技术克隆了大蕉苯丙氨酸解氨酶基因全长 cDNA。此 cDNA 长 1 300 bp,包含一个长为 1 191 bp,编码 397 个氨基酸的完整开放阅读框(ORF),推导的氨基酸序列与水稻 PAL 基因氨基酸序列同源性达 89%,将此基因命名为 M-PAL。Southern杂交结果表明大蕉中存在一个包含 4-5 个 PAL基因的基因家族,将此基因克隆到大肠杆菌表达载体 pET32(a )中,表达的蛋白质分子量大小与推导的相一致,并且表达的蛋白质表现出 PAL 酶活性。对接种香蕉枯萎病菌 4 号生理小种(Fusarium oxysporumf. sp. cubense (FOC) race 4 )后大蕉叶片中 M-PAL基因的转录谱进行研究表明,在接种枯萎病菌后,M-PAL基因在叶片中的转录水平提高,因此推测 M-PAL基因的表达可能与香蕉枯萎病抗性相关。     

转高粱C4型NADP-ME基因水稻植株的光合生理特征

NADP-苹果酸酶(NADP-ME)是C4型植物C4光合途径的一个分离得到了编码高梁(Sorghum vuklgare L.)C4型NADP-ME的全长cDNA.该cDNA全长为2 139 bp,其开放可读框为1 911bp,共编码636个氨基酸和一个终止密码子(GenBank登录号为AY274836).利用农杆菌介导的转化系统将其转入水稻品种"农垦58".经Southern杂交、Northern杂交和酶活性检测表明,高粱C4型NADP-ME可以在水稻中有效表达,酶活性可被提高1～7倍.对转基因水稻进行光合生理检测表明,转NADP-ME基因水稻CO2交换特征没有明显改变,但是在中午强光条件下光抑制加剧.     

Molecular cloning of cDNAs encoding ribonuclease-related proteins in Nicotiana glutinosa leaves, as induced in response to wounding or to TMV-infection

We earlier isolated a cDNA clone (NGR1) encoding a wound-inducible ribonuclease (RNase NW) from leaves of Nicotiana glutinosa [Kariu et al. Biosci. Biotechnol. Biochem., 62, 1144-1151 (1998)]. In this study, two distinct cDNA clones, NGR2 and NGR3, encoding proteins with a ribonuclease-related sequence in the N. glutinosa leaves, were amplified and sequenced. The nucleotide sequences of NGR2 and NGR3 consist of 1244 bp and 1069 bp, and have open reading frames encoding 277 (RNase NGR2) and 236 (RNase NGR3) amino acid residues, respectively. The deduced amino acid sequences of the putative RNases NGR2 and NGR3 showed 33% and 58% amino acid sequence identity, respectively, with that of RNase NW and 32% identity with each other. Sequence comparison showed that NGR2 is similar to RNase RNS2 (61%) from Arabidopsis thaliana, while NGR3 is related to RNase LX (84%) from tomato (Lycopersicon esculentum). RNA gel blot analysis showed that the RNase NGR2 gene is constitutively expressed to measurable levels; it is not increased by either wounding or TMV infection. In contrast, the expression of the NGR3 gene is induced after 48 h upon TMV infection.     

Molecular cloning and expression of a phospholipid hydroperoxide glutathione peroxidase homolog in Oryza sativa

A cDNA encoding putative phospholipid hydroperoxide glutathione peroxidase (PHGPX) was isolated from rice using rapid amplification of cDNA ends. This cDNA, designated ricPHGPX, includes an open reading frame encoding a protein of 169 amino acids which shares about 60% and 50% amino acid sequence identity with plant and mammalian PHGPXs, respectively. The gene is expressed at a relative high level in flag leaves and the expression can be markedly induced by oxidative stress, suggesting that the product of the gene plays a key role in defense against oxidative damage in rice.     

Cloning and characterization of the EIN2-homology gene LeEIN2 from tomato.

A full-length cDNA, named LeEIN2 was cloned from tomato (Lycopersicon esculentum) by RT-PCR and RACE. Then the genomic DNA sequence of LeEIN2 was isolated by LA (Long and Accurate) PCR and Inverse PCR. This DNA sequence was 6838 bp including six introns. The LeEIN2 cDNA was 4343 bp and contained a 3951 bp open reading frame, encoding a 142.63 kDa protein of 1316 amino acids. Comparison of this protein sequence with that of Arabidopsis and Petunia showed that the amino acid homology was 66 and 90%, respectively. Northern blotting analysis indicated that the expression level of the LeEIN2 in young leaves was higher than in mature leaves and senescent leaves. During the development of fruits, the expression of the LeEIN2 was detected before mature green stage and got up to maximum at mature green and breaker stages, then reduced rapidly after breaker stage. The expression level of LeEIN2 in wild type tomato fruit at mature green stage did not distinctively change when treated with exogenous ethylene.     

西伯利亚蓼非特异性脂质转移蛋白编码序列的克隆及其盐胁迫下的表达

根据西伯利亚蓼地下茎抑制消减文库(SSH)中获得的非特异性脂质转移蛋白(non-specific lipid transfer protein, nsLTP)EST序列,应用RACE技术克隆了具有Poly A的全长cDNA序列.该序列全长604 bp,其5′非翻译区65 bp,3′非翻译区227 bp,开放阅读框编码103个氨基酸残基;序列分析表明,该基因具有N端信号肽,具有nsLTP家族共有的典型保守区域,属nsLTP家族基因,命名为PsnsLTPs;荧光定量PCR分析表明,PsnsLTPs在西伯利亚蓼叶、茎、地下茎中均有表达.在3%NaHCO3诱导表达下,该基因在地下茎中表达明显受盐胁迫的诱导,推测该基因在抵御盐胁迫时具有重要作用.     

Cloning and Characterization of OsORC2, A New Member of Rice Origin Recognition Complex

In eukaryotic cells, the origin recognition complex (ORC) governs the initiation site of DNA replication and formation of the prereplication complex. The isolation, characterization and tissue-specific expression of a putative ORC subunit 2 (OsORC2) in Oryza sativa is described here. A novel cDNA fragment encoding rice ORC2 was isolated by screening the subtractive library, which had a higher expression level in inflorescence meristem than in shoot apical meristem. The full-length cDNA of rice ORC2 was obtained by the method of rapid amplification of cDNA ends, which contained an 1140 bp open reading frame encoding a 379 amino acid polypeptide. Sequence alignment shows that there is a high homology between the deduced amino sequence of OsORC2 and maize ORC2 (85%). The tissue-specific expression pattern of OsORC2 reveals that it is abundant in roots, seedling and inflorescence meristem, while its expression level is much lower in mature leaves and shoot.     

大鼠神经元凋亡相关碱性蛋白ARBP cDNA的克隆和功能

利用cDNA末端快速扩增 (RACE)方法 ,得到凋亡相关碱性蛋白 (ARBP)的全长序列 ,进而构建了其真核表达体系以了解其功能 .ARBP的全长cDNA序列为 90 1bp ,其开放读码框架编码 10 9个氨基酸残基 .免疫组化分析表明 ,ARBP蛋白在大鼠体内有广泛的分布 .在R2L1细胞中转染ARBP反义cDNA表达载体后 ,既可以促进细胞增殖 ,又可以抑制去血清诱导的细胞凋亡 .因而 ,ARBP蛋白对神经元细胞的凋亡具有重要的调节作用 .