盐地碱蓬叶片液泡膜H+-ATPase B亚基的克隆及盐胁迫下表达分析

植物液泡膜H -ATPase在建立跨液泡膜质子梯度、促进液泡Na 区域化、提高植物耐盐性方面发挥着重要作用.本实验从盐生植物盐地碱蓬(Suaeda salsa L.)cDNA文库分离到碱蓬叶片液泡膜H -ATPase B亚基cDNA克隆.测序表明该基因长达1 974 bp,开放阅读框有1 470 bp编码489个氨基酸,含有一个保守的ATP结合位点,其蛋白分子量约为54.29 kD.Northem及Western印迹表明盐地碱蓬液泡膜H -ATPase B亚基表达明显受NaCl胁迫诱导,并且在NaCl胁迫下,B亚基在转录及翻译水平上与液泡膜H -ATPase c亚基存在协同作用.盐胁迫下,盐地碱蓬液泡H -ATPase B亚基与c亚基的协同表达增加了液泡H -ATPase的数量,从而提高了液泡H -ATPase活性,为碱蓬叶片液泡Na 区域化提供了动力,最终提高了碱蓬植株的耐盐性.     

盐地碱蓬叶片液泡膜H^＋—ATPase B亚基的克隆及盐胁迫下表达分析

植物液泡膜H^ -ATPase在建立跨液泡膜质子梯度、促进液泡Na^ 区域化、提高植物耐盐性方面发挥着重要作用。本实验从盐生植物盐地碱蓬(Suaeda salsa L.)cDNA文库分离到碱蓬叶片液泡膜H^ -ATPase B亚基cDNA克隆。测序表明该基因长达1974bp,开放阅读框有1470bp编码489个氨基酸,含有一个保守的ATP结合位点,其蛋白分子量约为54．29kD。Northern及Western印迹表明盐地碱蓬液泡膜H^ -ATPase B亚基表达明显受NaCl胁迫诱导,并且在NaCl胁迫下,B亚基在转录及翻译水平上与液泡膜H^ -ATPase c亚基存在协同作用。盐胁迫下,盐地碱蓬液泡H^ -ATPase B亚基与c亚基的协同表达增加了液泡H^ -ATPase的数量,从而提高了液泡H^ -ATPase活性,为碱蓬叶片液泡Na^ 区域化提供了动力,最终提高了碱蓬植株的耐盐性。     

K+营养对NaCl胁迫下盐地碱蓬生长及叶片液泡膜V-H+-ATPase和V-H+-PPase活性的影响

对溶液培养的盐地碱蓬(Suaeda salsa L.)幼苗进行不同浓度NaCl胁迫并改变培养液中K+浓度,以了解K+营养对NaCl胁迫下盐地碱蓬幼苗生长及叶片液泡膜V-H+-ATPase、V-H+-PPase活性的影响.提高培养液K+浓度可明显增加盐胁迫下碱蓬植株的鲜重、干重,促进盐地碱蓬叶片及根部组织K+积累.盐地碱蓬叶片液泡膜V-H+-ATPase至少由A、B、C、D、E及c亚基组成,其表达量在缺K+处理(12 μmol/L K+)下随盐胁迫浓度的增加而减小,而在正常K+(6 mmol/L)培养下则随盐胁迫浓度的增加而增加;盐地碱蓬叶片液泡膜V-H+-PPase分子量为72 kD,在缺K+和正常K+供应情况下,V-H+-PPase均有较高表达.V-H+-ATPase及V-H+-PPase活性变化与其亚基表达量变化基本成正相关.结果表明: K+对盐生植物碱蓬的耐盐性有重要作用,盐胁迫下,K+可能参与了V-H+-ATPase和V-H+-PPase活性调控.     

K^＋营养对NaCl胁迫下盐地碱蓬生长及叶片液泡膜V—H^＋—ATP和V—H^＋—PPase活性的影响

对溶液培养的盐地碱蓬（Suaeda salsa L.)幼苗进行不同浓度NaCl胁迫并改变培养液中K^ 浓度,以了解K^ 营养对NaCl胁迫下盐地碱蓬幼苗生长及叶片液泡膜V－H^ -ATPase、V－H^ -PPase活性的影响。提高培养液K^ 浓度可明显增加盐胁迫下碱蓬植株的鲜重、干重,促进盐地碱蓬叶片及根部组织K^ 积累。盐地碱蓬叶片液泡膜V－H^ -ATPase至少由A、B、C、D、E及c亚基组成,其表达量在缺K^ 处理（12μmol/L K^ )下随盐胁迫浓度的增加而减小,而在正常K^ （6mmol/L)培养下则随盐胁迫浓度的增加而增加;盐地碱蓬叶片液泡膜V－H^ -PPase分子量为72kD,在缺K^ 和正常K^ 供应情况下,V－H^ -PPase均有较高表达。V－H^ -ATPase及V－H^ -PPase活性变化与其亚基表达量变化基本成正相关。结果表明：K^ 对盐生植物碱蓬的耐盐性有重要作用,盐胁迫下,K^ 可能参与了V－H^ -ATPase和V－H^ -PPase活性调控。     

盐地碱蓬过氧化氢酶基因的克隆及盐胁迫下的表达分析

过氧化氢酶是清除H2O2的重要酶类,从400mmol/LNaCl处理的盐地碱蓬（Suaeda salsa(L.)Pall)地上部分的cDNA文库中克隆了两个编码过氧化氢酶的cDNA(Sscat1和Sscat2)。其中Sscatl(1.7kb)是一个全长cDNA克隆,编码一个492个氨基酸的开放阅读框架。而Sscat2(1.1kb)是一个cDNA片段。据编码Sscatl3′端的287个氨基酸的cDNA序列与Sscat2的cDNA序列进行的BLAST同源性分析表明,Sscat1和Sscat2在核苷酸水平的一致性则为一个单拷贝基因。Northern杂交结果表明在盐胁迫条件下Sscat1和Sscat2的表达存在差异;400mmol/LNaCl处理48h的盐地碱蓬根中的Sscat1和Sscat2mRNA水平比对照显著提高,但是在叶中仅Sscat1受盐诱导表达,不同盐处理时间下的表达分析也证实。在盐地碱蓬叶中仅Sscat1受盐诱导表达。这说明Sscat1和Sscat2在盐地碱蓬中是差异调控的,生理分析表明过氧化氢酶的活性在盐胁迫条件下显著提高。     

盐地碱蓬过氧化氢酶基因的克隆及盐胁迫下的表达分析

过氧化氢酶是清除H2O2的重要酶类.从400 mmol/L NaCl处理的盐地碱蓬(Suaeda salsa(L.)Pall)地上部分的cDNA文库中克隆了两个编码过氧化氢酶的cDNA(Sscat1和Sscat2),其中Sscat1(1.7kb)是一个全长cDNA克隆,编码一个492个氨基酸的开放阅读框架,而Sscat2(1.1kb)是一个cDNA片段.据编码Sscat1 3＇端的287个氨基酸的cDNA序列与Sscat2的cDNA序列进行的BLAST同源性分析表明,Sscat1和Sscat2在核苷酸水平的一致性为71.9%,在氨基酸水平上的一致性为75%.Southem杂交表明,Sscat1在盐地碱蓬基因组中为多拷贝基因,Sscat2则为一个单拷贝基因.Northern杂交结果表明在盐胁迫条件下Sscat1和Sscat2的表达存在差异:400 mmol/L NaCl处理48h的盐地碱蓬根中的Sscat1和Sscat2 mRNA水平比对照显著提高,但是在叶中仅Sscatl受盐诱导表达.不同盐处理时间下的表达分析也证实,在盐地碱蓬叶中仅Sscat1受盐诱导表达.这说明Sscat1和Sscat2在盐地碱蓬中是差异调控的.生理分析表明过氧化氢酶的活性在盐胁迫条件下显著提高.     

K~ 营养对NaCl胁迫下盐地碱蓬生长及叶片液泡膜V-H~ -ATPase和V-H~ -PPase活性的影响(英文)

对溶液培养的盐地碱蓬 (SuaedasalsaL .)幼苗进行不同浓度NaCl胁迫并改变培养液中K 浓度 ,以了解K 营养对NaCl胁迫下盐地碱蓬幼苗生长及叶片液泡膜V_H _ATPase、V_H _PPase活性的影响。提高培养液K 浓度可明显增加盐胁迫下碱蓬植株的鲜重、干重 ,促进盐地碱蓬叶片及根部组织K 积累。盐地碱蓬叶片液泡膜V_H _ATPase至少由A、B、C、D、E及c亚基组成 ,其表达量在缺K 处理 (12 μmol/LK )下随盐胁迫浓度的增加而减小 ,而在正常K (6mmol/L)培养下则随盐胁迫浓度的增加而增加 ;盐地碱蓬叶片液泡膜V_H _PPase分子量为 72kD ,在缺K 和正常K 供应情况下 ,V_H _PPase均有较高表达。V_H _ATPase及V_H _PPase活性变化与其亚基表达量变化基本成正相关。结果表明 :K 对盐生植物碱蓬的耐盐性有重要作用 ,盐胁迫下 ,K 可能参与了V_H _ATPase和V_H _PPase活性调控     

盐地碱蓬(Suaeda salsa)中SsINPS基因的分子克隆及表达特性分析

肌醇 1 磷酸 (I 1 P)合成酶 (EC5 .5 .1 .4,INPS)是肌醇生物合成中的关键酶 ,催化葡萄糖 6 磷酸 (G 6 P)到I 1 P的反应。从该实验室已构建的NaCl40 0mmol/L处理的盐地碱蓬 (Suaedasal sa)cDNA文库中克隆了肌醇 1 磷酸合成酶的全长cDNA (S .salsamyo inositol 1 phosphatesynthase,SsINPS) ,基因注册号为AF43 3 879。SsINPS全长约 1 986bp ,含有开放式阅读框架 1 5 3 0bp ,3′和 5′的非翻译区分别为 1 3 9bp和 3 1 7bp ;推导的氨基酸序列全长 5 1 0个氨基酸残基 ,分子量约为 5 6 .7kD ,pI值为 5 .3 5。BLAST同源性分析表明 ,该cDNA与已报告的冰叶日中花 (Mesembryanthemumcrys tallinum)的INPS基因同源性最高 ,其中 ,核苷酸水平的同源性为 91 % ,氨基酸水平上的同源性为84%。以SsINPS全长cDNA为探针进行的South ern杂交结果表明 ,SsINPS基因在盐地碱蓬基因组中只有一个拷贝 ;Northern结果表明 ,在盐处理(40 0mmol/L的NaCl)下 ,SsINPS在叶中的表达量有显著的增加。从而说明SsINPS在盐胁迫下是上升调节的     

盐地碱蓬(Suaeda salsa)APX 基因的克隆及盐胁迫下的表达

从盐地碱蓬 (Suaedasalsa)中克隆了抗坏血酸过氧化物酶 (ascorbateperoxidase ,APX)的全长cDNA(SsAPX) ,基因注册号为AY0 34 893。SsAPX全长 1.1kb ,推导的氨基酸序列长为 2 5 0个氨基酸残基。BLAST同源性分析表明 ,该cDNA与已报告的菠菜(Spinaciaoleracea)细胞质抗坏血酸过氧化物酶基因同源性最高 ,在核苷酸水平上一致性为 87% ,在氨基酸水平上一致性为 89%。Southern杂交表明APX基因在盐地碱蓬基因组中只有 1个拷贝。盐 (NaCl 40 0mmol/L)处理不同时间后的Northern杂交分析表明盐地碱蓬中SsAPX基因在盐胁迫下表达量增加 ,而且在盐胁迫下抗坏血酸过氧化物酶的活性也显著地增加 ,说明该基因受盐诱导。推测抗坏血酸过氧化物酶可能在保护盐地碱蓬免受氧化损伤的过程中起到一定作用     

NaCl和Na2CO3对盐地碱蓬胁迫效应的比较

在相同的Na 浓度(如100 mmol/L)下,NaCl处理促进碱蓬植株干重增加,提高根系活力,而Na2CO3处理导致植株干重减少,根系活力降低;与NaCl胁迫相比,Na2CO3胁迫下叶片内Na 含量上升和K 含量下降幅度更大,叶肉细胞质Na 含量和叶内脯氨酸含量增加幅度更大,而V-H -ATPase(液泡膜H -ATPase)和V-H -PPase (液泡膜H -PPase)增加幅度较少;与NaCl胁迫不同,Na2CO3胁迫下SOD(超氧化物歧化酶)活性不是增加,而是降低,与此相一致,MDA(丙二醛)含量大幅度增加.上述结果表明,碱蓬对Na2CO3胁迫的抗性低于对NaCl的抗性,这可能与Na2CO3胁迫引起的Na 、K 离子严重失衡、活性氧清除能力降低有关.     

马铃薯AGPase大小亚基功能研究

马铃薯 1,6 二磷酸腺苷葡萄糖焦磷酸化酶 (AGPase)是淀粉合成的限速酶 ,该酶有大、小两个亚基形成异源四聚体。总结了迄今为止已克隆的马铃薯AGPase大、小亚基编码基因、小亚基和底物结合位点的识别、以及大亚基异构调控因子结合位点识别的研究结果 ,提出了大小亚基非自然重组是深入研究AGPase的途径 ,建立体内条件下高效可靠代谢调控研究手段是AGPase研究所必需的。     

The Role of the Supernumerary Subunit of Rhodobactersphaeroides Cytochrome bc 1 Complex

The smallest molecular weight subunit (subunit IV), which contains no redox prosthetic group,is the only supernumerary subunit in the four-subunit Rhodobacter sphaeroides bc ₁ complex.This subunit is involved in Q binding and the structural integrity of the complex. When thecytochrome bc ₁ complex is photoaffinity labeled with [³H]azido-Q derivative, radioactivity isfound in subunits IV and I (cytochrome b), indicating that these two subunits are responsiblefor Q binding in the complex. When the subunit IV gene (fbcQ) is deleted from the R.sphaeroides chromosome, the resulting strain (RSIV) requires a period of adaptation beforethe start of photosynthetic growth. The cytochrome bc ₁ complex in adapted RSIVchromatophores is labile to detergent treatment (60–75% inactivation), and shows a four-fold increasein the K _m for Q₂H₂. The first two changes indicate a structural role of subunit IV; the thirdchange supports its Q-binding function. Tryptophan-79 is important for structural andQ-binding functions of subunit IV. Subunit IV is overexpressed in Escherichia coli as a GSTfusion protein using the constructed expression vector, pGEX/IV. Purified recombinant subunitIV is functionally active as it can restore the bc ₁ complex activity from the three-subunit corecomplex to the same level as that of wild-type or complement complex. Three regions in thesubunit IV sequence, residues 86–109, 77–85, and 41–55, are essential for interaction withthe core complex because deleting one of these regions yields a subunit completely or partiallyunable to restore cytochrome bc ₁ from the core complex.     

Plasticity of Agonist Binding Sites in Hetero-Oligomers of the Unitary Glutamate Receptor Subunit XenU1

Abstract: Two subunits from Xenopus , XenNR1G and the "short" subunit XenU1, have previously been coexpressed to form a unitary (NMDA/non-NMDA type) glutamate receptor. We now show that an antibody to XenNR1G or an antibody to XenU1 precipitates the binding sites of both XenNR1G and XenU1, with the recombinant subunits or with solubilised Xenopus brain membranes, i.e., the combination occurs in vivo. The expressed XenU1 subunits are in the cell membrane and oriented correctly. XenU1 binds not only kainate with high affinity ( K _D 1.2 n M at 25°C), but also the glycine site antagonist 5,7-dichlorokynurenic acid (DCKA). DCKA, GTP, or GTPγS displaces competitively all of the bound [³H]kainate, but glycine has no effect. The results suggest that a common binding site for kainate, DCKA, and GTP can exist on XenU1. In the XenNR1G/XenU1 complex, the kainate affinity is lowered eightfold, whereas the DCKA affinity is considerably increased ( K _D 147 n M ). Only 18% of the binding to the complex has the properties of the NMDA receptor glycine site, the rest being due to switching of the high-affinity kainate site of XenU1 (low-affinity DCKA) to a high-affinity DCKA (low-affinity kainate) conformation. Surprisingly, a mammalian NR2 subunit can also combine with XenU1, and this introduces similar reciprocal changes in the binding of kainate and DCKA. The combined evidence suggests a common basic mode of agonist site formation in different subunit types of the ionotropic glutamate receptors.     

纯化重组霍乱毒素B亚单位与天然霍乱毒素B亚单位性质的对比研究

霍乱毒素Ｂ亚单位（ＢＳ）已用于新型口服霍乱疫苗、佐剂及蛋白质载体,但成本高,来源困难．用重组霍乱毒素Ｂ亚单位（ｒＢＳ）代替ＢＳ可克服上述缺点．ｒＢＳ用于上述目的前必须证实其在物理、化学及免疫学性质方面与天然同类产品的一致性．用亲和层析法从各批次大罐发酵所获工程菌Ｅ．ｃｏｌｉＭＭ２（ｐＭＭ－ＣＴＢ）培养物上清中制备得到了小批量ｒＢＳ纯品,在同等条件下与ＢＳ（Ｓｉｇ－ｍａ公司产品）进行理化、免疫学性质的对比研究,证实二者在ＳＤＳ－ＰＡＧＥ中电泳带位置一致、分子量相同,纯度达９９％;在反相ＨＰＬＣ中出峰行为一致,纯度达１００％;在半干式聚焦电泳分析中电泳带分布相同,等电点为７．９１．ｒＢＳＮ端起的２０个氨基酸序列为ＴＰＱＮＩＴＤＬＣＡＥＹＨＮＴＱＩＨＴＬ,与克隆基因来源株的毒素Ｂ亚单位同一段序列完全一致．氨基酸组成分析证实ｒＢＳ与ＢＳ相近．在免疫学性质分析中,ｒＢＳ与ＢＳ在免疫双扩散试验中与抗ＣＴ均出一条沉淀线且相互吻合;在免疫电泳试验中二者与抗ＣＴ在相应位置上产生一条沉淀弧;二者均能与神经节苷脂ＧＭ１结合且这种结合均可通过二者与抗ＣＴ的预保温处理而被阻断．对比研究结果揭示ｒＢＳ与ＢＳ性质完全一致,可代替ＢＳ用于     

Reevaluation of the amino acid sequence of porcine follitropin

We have reevaluated the sequence of porcine follicle-stimulating hormone (pFSH) with more recent protein-sequencing methodology. This has led to revision of the earlier proposed sequence. As with almost all reported gonadotropin -subunits, NH₂-terminal heterogeneity was found in the porcine FSH -subunit (FSH), starting with residue Phe (1), Asp (3), Gly (4), or Thr (7). In the -subunit, there were found to be at least two molecular species, starting with residue Asn (1) (minor 20%) or Cys (3) (major 80%) as NH₂-terminal and ending at residue Glu (108) as COOH-terminal. The net effect of the present revisions is to increase the homology of pFSH with other reported follitropin sequences. Apparent differences in the half-cystine placements in a previous proposal for pFSH compared with other species of FSH are no longer tenable. The half-cystine placements thus remain a constant structural feature throughout the gonadotropin hormones (choriogonadotropin, follitropin, and lutropin).     

Morphological, mitochondrial DNA and allozyme evolution in representative amphibians and reptiles inhabiting each side of the Strait of Gibraltar

Patterns of differentiation in morphology, mitochondrial DNA and allozymes in amphibians and reptiles inhabiting northern and southern shores of the Strait of Gibraltar are not concordant, suggesting that each taxon was affected differently by events preceding or following the formation of the Strait of Gibraltar. Mitochondrial DNA and allozyme differentiation between Discoglossus jeanneae and Discoglossus scovazzi (Anura, Discoglossidae), Rana perezi and Rana saharica (Anura, Ranidae), and Blanus cinereus and Blanus tingitanus (Squamata, Amphisbaenia, Amphisbaenidae) is substantial, whereas morphological differentiation is moderate in Rana and Blanus , but is substantial in Discoglossus . Differentiation in mitochondrial DNA and morphology between Timon ( Lacerta ) lepidus and Timon ( Lacerta ) tangitanus (Squamata, Lacertoidea, Lacertidae) is considerable, but allozyme differentiation is low. In members of type-I and -II Podarcis vaucheri (Squamata, Lacertoidea, Lacertidae), morphology and mitochondrial DNA are moderately differentiated, but allozyme differentiation is low. Spanish and Moroccan populations of Hyla meridionalis (Anura, Hylidae), Mauremys leprosa (Testudines, Geoemydidae), and Macroprotodon brevis (Squamata, Serpentes, Colubridae) demonstrate little allozyme and mitochondrial DNA differentiation, but whereas morphological differentiation between Mauremys and Macroprotodon populations is moderate, Hyla demonstrate substantial morphological differentiation between continental populations. These data suggest that sex-limited mitochondrial markers are reflective of ancient phylogenetic history, whereas biparentally inherited allozyme markers and morphological characteristics reflect more recent population structure and movement.  © 2008 The Linnean Society of London, Biological Journal of the Linnean Society , 2008, 94 , 445–461.     

Molecular evolution of the modulator of chloroplast ATP synthase: origin of the conformational change dependent regulation

Chloroplast ATP synthase synthesizes ATP by utilizing a proton gradient as an energy supply, which is generated by photosynthetic electron transport. The activity of the chloroplast ATP synthase is regulated in several specific ways to avoid futile hydrolysis of ATP under various physiological conditions. Several regulatory signals such as Delta mu H(+), tight binding of ADP and its release, thiol modulation, and inhibition by the intrinsic inhibitory subunit epsilon are sensed by this complex. In this review, we describe the function of two regulatory subunits, gamma and epsilon, of ATP synthase based on their possible conformational changes and discuss the evolutionary origin of these regulation systems.     

Human embryonic, fetal, and adult hemoglobins have different subunit interface strengths. Correlation with lifespan in the red cell

The different types of naturally occurring, normal human hemoglobins vary in their tetramer-dimer subunit interface strengths (stabilities) by three orders of magnitude in the liganded (CO or oxy) state. The presence of embryonic zeta-subunits leads to an average 20-fold weakening of tetramer-dimer interfaces compared to corresponding hemoglobins containing adult alpha-subunits. The dimer-monomer interfaces of these hemoglobins differ by at least 500-fold in their strengths; such interfaces are weak if they contain zeta-subunits and exchange with added beta-subunits in the form of beta(4) (HbH) significantly faster than do those with alpha-subunits. Subunit exchange occurs at the level of the dimer, although tetramer formation reciprocally influences the amount of dimer available for exchange. Competition between subunit types occurs so that pairs of weak embryonic hemoglobins can exchange subunits to form the stronger fetal and adult hemoglobins. The dimer strengths increase in the order Hb Portland-2 (zeta(2)beta(2)) < Hb Portland-1 (zeta(2)gamma(2)) approximately equal Hb Gower-1 (zeta(2)epsilon(2)) < Hb Gower-2 (alpha(2)epsilon(2)) < HbF(1) < HbF (alpha(2)gamma(2)) < HbA(2) (alpha(2)delta(2)), i.e., from embryonic to fetal to adult types, representing maturation from weaker to stronger monomer-monomer subunit contacts. This increasing order recapitulates the developmental order in which globins are expressed (embryonic --> fetal --> adult), suggesting that the intrinsic binding properties of the subunits themselves regarding the strengths of interfaces they form with competing subunits play an important role in the dynamics of protein assemblies and networks.     

Developmental and Regional Expression of NMDA Receptor Subtypes Containing the NR2D Subunit in Rat Brain

Abstract: The regional and developmental expression of NMDA receptors containing the NR2D subunit was analyzed on the level of the subunit mRNA and protein in rat brain. RNase protection experiments indicated that among two proposed splice variants of the NR2D subunit, only the NR2D-2 subunit is expressed. The regional distribution of the NR2D subunit protein was visualized with a newly developed NR2D-2 subunit-specific antiserum on brain sections using the histoblot technique. In adult brain, NR2D immunoreactivity was mainly restricted to diencephalic, mesencephalic, and brainstem structures. During postnatal development, the NR2D subunit was detected transiently in certain regions, such as the ventro-basal complex of the thalamus, hippocampus, inferior colliculus, and brainstem reticular formation, suggesting that NR2D subunit-containing receptors play a role in these brain areas only during development. The level of NR2D subunit mRNA and protein decreased during late postnatal development. However, significant levels of NR2D subunit mRNA and protein were present in adulthood, in particular, in the globus pallidus, thalamus, subthalamic nuclei, and superior colliculus. These results indicate a functional relevance for NMDA receptors containing the NR2D subunit in the developing and adult brain, although its expression in the adult brain is less prominent and restricted to a few brain areas.