白芷细胞外21kD钙调素结合蛋白的生理功能初探

利用Ｓｅｐｈａｄｅｘ Ｇ－１００及ＣＭ－Ｓｅｐｈａｒｏｓｅ层析法,从白芷悬浮培养细胞的胞外盐提液中纯化了２１ｋＤ钙调素结合蛋白（２１ｋＤ ＣａＭＢＰ）,测其等电点的ｐＨ为８．９,紫外薄层扫描显示其纯度达９４％以上,以此蛋白为抗原,用免疫小鼠得水法制备了特异性抗体。由纯化的２１ｋＤ ＣａＭＢＰ及其特异性抗体研究其对白芷悬浮培养细胞增殖的影响,结果表明：加入外源纯化的２１ｋＤ ＣａＭＢＰ抑制细胞增殖,     

马铃薯Y病毒普通系外壳蛋白基因在大肠杆菌中的表达

将马铃薯Ｙ病毒普通系（ＰＶＹ０）的外壳蛋白基因克隆到表达质粒ｐＭＡＬｃ２中,构建这一基因在大肠杆菌中的表达载体ｐＭＡＬｃ２ＰＶＹ０ＣＰ。ＳＤＳＰＡＧＥ及Ｗｅｓｔｅｒｎｂｌｏｔｉｎｇ检测结果表明,这一表达栽体在Ｅ．ｃｏｌｉＤＨ５α中经ＩＰＴＧ诱导可表达分子量为７１．８ｋＤａ的特异性融合蛋白。以ａｍｙｌｏｓｅｒｅｓｉｎ亲合柱层析纯化这一融合蛋白为抗原,免疫家兔制备了效价为１∶１０２４的特异性抗血清。用该抗血清可通过对流免疫电泳、免疫双扩散及Ｗｅｓｔｅｒｎｂｌｏｔｉｎｇ对ＰＶＹ进行检测     

光系统Ⅱ核心天线CP43的纯化及性质

菠菜放氧的ＰＳＩＩ核心复合物经０．８ｍｏｌ／ＬＴｒｉｓ－ＨＣｌ（ｐＨ８．０）洗涤后,用温和的非离子去垢剂ＤＭ和高浓度的ＬｉＣｌＯ４增溶,再经ＤＥＡＥ－Ｔｏｙｏｐｅａｒｌ－６５０Ｓ离子交换柱层析分离,可得到ＰＳＩＩ核心天线４３ｋＤ叶绿素ａ结合蛋白（ＣＰ４３）。ＳＤＳ－ＰＡＧＥ显示一条４３ｋＤ蛋白质带。根据Ａｒｎｏｎ法和Ｍａｒｋｅｗｌｌ法的结果表明,每个蛋白质分子结合２０～２１个分子的叶绿素ａ。室温条     

兔阑尾中一种新的21kD的钙结合蛋白的纯化与鉴定

纯化与鉴定了Ｂ淋巴细胞中一种新的分子量为２１ｋＤ的钙结合蛋白（ＣａＢＰ２１）。兔阑尾淋巴细胞匀浆经热变性,Ｐｈｅｎｙｌ－Ｓｅｐｈａｒｏｓｅ与ＤＥＡＥ－Ｓｅｐｈａｒｏｓｅ柱层析,自每１ｋｇ细胞沉积物中获得ＳＤＳ－ＰＡＧＥ均一的ＣａＢＰ２１５．３ｍｇ。ＨＣｌ水解后的酸性氨基酸（Ａｓｐ＋Ｇｌｕ）含量为２６％。如同大多数钙结合蛋白一样,Ｎ末端封闭阻止其进行Ｅｄｍａｎ降解。ＣａＢＰ２１中疏水性氨基酸（计Ｇｌｙ,不计Ｔｒｐ）约占４６％,碱性氨基酸１０％,酸性氨基酸与极性氨基酸约４４％。ＣａＢＰ２１有较高的Ｓｅｒ、Ｔｙｒ含量。肽谱分析等确证ＣａＢＰ２１为２个相同或相似亚基二聚体。以ＡｒｓｅｎａｚｏⅢ作Ｃａ２＋结合分析表明每分子ＣａＢＰ２１可结合４分子Ｃａ２＋,对Ｃａ２＋的结合常数约为１０－５ｍｏｌ／Ｌ。各种性质表明ＣａＢＰ２１是一种不同于其他已知钙结合蛋白的新钙结合蛋白。     

甲基单胞菌Methylomonas sp.GYJ3中甲烷单加氧酶还原酶组分的纯化和性质

Ｍｅｔｙｌｏｍｏｎａｓｓｐ．ＧＹＪ３菌的甲烷单加氧酶（ＭＭＯ）粗酶提取液经ＤＥＡＥ－ＳｅｐｈａｒｏｓｅＣＬ－６Ｂ阴离子交换层析、ＳｅｐｈａｄｅｘＧ－１００凝胶过滤层析和ＤＥＡＥ－ＴＳＫｇｅｌＨＰＬＣ分离纯化出ＭＭＯ还原酶组分．经ＨＰＬＣ分析,纯度大于９５％,纯化倍数为４．４,加入至ＭＭＯ羟基化酶和调节蛋白Ｂ的体系中表现比活为２２８ｎｍｏｌ环氧丙烷每分钟毫克蛋白．ＳＤＳ－ＰＡＧＥ电泳表明还原酶由一种亚基组成,分子量４２ｋＤ．ＩＣＰ－ＡＥＳ测定还原酶的Ｆｅ含量为１．８３ｍｏｌＦｅ每ｍｏｌ蛋白．ＵＶ－Ｖｉｓ光谱表明还原酶除２８０ｎｍ蛋白质特征峰外在４６０ｎｍ有最大吸收峰,且Ａ２８０ｎｍ／Ａ４６０ｎｍ为２．５０,与其它黄素一铁硫蛋白相似,推测还原酶可能含一个ＦＡＤ辅基和Ｆｅ２Ｓ２中心．在厌氧条件下,还原酶能够和ＮＡＤＨ作用,ＵＶ－Ｖｉｓ光谱分析表明还原酶４６０ｎｍ处特征吸收峰消失,说明在ＭＭＯ催化过程中还原酶接受ＮＡＤＨ的电子．ＤＥＡＥ－ＳｅｐｈａｒｏｓｅＣＬ－６Ｂ阴离子交换层析分离出调节蛋白Ｂ,部分纯化的调节蛋白Ｂ的分子量大约在２０ｋＤ,它能够提高ＭＭＯ比活性４０倍,ＭＭＯ还原酶和调节蛋白Ｂ单独存在时不具有ＭＭＯ     

小麦黄花叶病毒RNA228kDa蛋白基因的表达及表达产物抗血清的制备

根据小麦黄花叶病毒（ Ｗ Ｙ Ｍ Ｖ） 核苷酸序列测定结果,将 Ｗ Ｙ Ｍ Ｖ Ｒ Ｎ Ａ２ 上的２８ ｋ Ｄａ 蛋白基因克隆到ｐ Ｅ Ｔ１１ａ 上,构建了原核表达载体ｐ Ｅ２８３９ 。 Ｓ Ｄ Ｓ Ｐ Ａ Ｇ Ｅ 分析表明,经 Ｉ Ｐ Ｔ Ｇ 诱导,２８ ｋ Ｄａ蛋白基因在大肠杆菌 Ｂ Ｌ２１（ Ｄ Ｅ３）ｐ Ｌｙｓ Ｓ 中得到高效表达。以含表达产物的凝胶为抗原,免疫家兔,首次制备了小麦黄花叶病毒 Ｒ Ｎ Ａ２ 蛋白特异性抗血清。     

血管平滑肌细胞增殖与Cdk抑制蛋白p27的表达

ｐ２７蛋白是细胞周期素依赖性激酶（Ｃｄｋ）抑制蛋白家族中的一种,主要对外部促进或抑制细胞增殖的信号起反应。本研究应用流式细胞仪（ＦＣＭ）双标记的方法观察血管紧张素Ⅱ（ＡｎｇⅡ）、血管加压素（ＡＶＰ）和血小板源生长因子（ＰＤＧＦ）对血管平滑肌细胞（ＶＳＭＣｓ）细胞周期百分比和ｐ２７蛋白表达量的影响。静止状态培养的ＶＳＭＣｓ加入ＡｎｇⅡ,ＡＶＰ,ＰＤＧＦＢＢ后,在不同时间收集细胞,用碘化丙啶（ＰＩ）标记细胞ＤＮＡ,以确定细胞所处的周期。用ｐ２７蛋白的单抗和标记了ＦＩＴＣ的二抗标记细胞,通过流式细胞仪测定被激发出的荧光量来确定细胞ｐ２７蛋白表达的相对量。结果显示,ＡｎｇⅡ刺激ＶＳＭＣｓ增生,其蛋白含量增加了４３６％（Ｐ＜００１）,但不抑制ｐ２７蛋白的表达;ＡＶＰ可轻度抑制ｐ２７的表达,有轻度促进ＶＳＭＣｓ增殖和增生的作用（Ｐ＜００５）;ＰＤＧＦ明显抑制ｐ２７的表达,引起细胞增殖。本研究结果提示,ｐ２７蛋白抑制ＶＳＭＣｓ通过Ｇ１期进入Ｓ期,是抑制ＶＳＭＣｓ增殖的重要调节因子。     

大鼠酰胺化酶的信号肽引导的昆虫细胞表达外泌系统

将大鼠酰胺化酶的信号肽及前导肽编码序列引入昆虫核多角体病毒转移表达载体,构建ＰＡＢＣｈＧＲＦ（Ｇｌｙ）、ＰＡＢＣＩＧＦＩ融合基因的昆虫细胞分泌表达质粒ｐＢａｃＰＡＧ２、ｐＢａｃＰＡＩ,并与经修饰的银纹夜蛾核多角体病毒ＢａｃＰＡＫ６线性化ＤＮＡ共转染秋粘虫细胞Ｓｆ２１,通过同源重组、筛选和鉴定,得到它们的重组病毒ＢａｃＰＡＧ、ＢａｃＰＡＩ。将重组病毒感染Ｓｆ２１细胞,ＰＡＢＣｈＧＲＦ（Ｇｌｙ）和ＰＡＢＣＩＧＦＩ均得到有效外泌表达,表达产物通过ＩｇＧＳｅｐｈａｒｏｓｅ柱可获得快速纯化。     

云南松花粉中钙调素结合蛋白的分离和鉴定

通过ＣａＭ－Ｓｅｐｈａｒｏｓｅ４Ｂ亲和层析方法从云南松花粉中提取出１０种ＣａＭ结合蛋白。它们均能抑制ＣａＭ对ＰＤＥ的激活,但这种抑制可被随后加入的过量的ＣａＭ所消除。酶活测定表明ＣａＭ结合蛋白中有Ｃａ２＋－依赖的ＡＴＰａｓｅ活力,但无植酸酶、过氧化物酶、酸性磷酸酶和磷脂酶Ｄ活性。     

光系统II核心天线CP43的纯化及性质

菠菜放氧的ＰＳＩ核心复合物经０．８ｍｏｌ／ＬＴｒｉｓ－ＨＣｌ（ｐＨ８．０）洗涤后,用温和的非离子去垢剂ＤＭ和高浓度的ＬｉＣｌＯ４增溶,再经ＤＥＡＥ－Ｔｏｙｏｐｅａｒｌ－６５０Ｓ离子交换柱层析分离,可得到ＰＳＩＩ核心天线４３ｋＤ叶绿素ａ结合蛋白（ＣＰ４３）。ＳＤＳ－ＰＡＧＥ显示一条４３ｋＤ蛋白质带。根据Ａｒｎｏｎ法和Ｍａｒｋｗｅｌ法的结果表明,每个蛋白质分子结合有２０～２１个分子的叶绿素ａ。室温条件下,ＣＰ４３在红光区具有６７１ｎｍ的最大吸收峰和６８３ｎｍ的荧光发射峰,以及Ｗ型的圆二色信号,表明其处于较为天然的状态。文中还制备并鉴定了对ＣＰ４３特异的抗血清。     

白芷细胞外钙调素结合蛋白（ECBP21）免疫组化及金标定位分析

ECBP21是我们从白芷悬浮培养细胞外纯化及cDNA克隆的一种钙调素结合蛋白(CaMBP),亦是植物中首次报道的细胞外CaMBP。本实验以大肠杆菌表达的重组ECBP21蛋白为抗原,制备了高效价特异性抗体;随后,利用免疫组化及金标定位技术,研究了ECBP21蛋白组织特异性分布及亚细胞定位。免疫组化结果表明：ECBP21在白芷各组织中均有分布,但在叶、花、花序轴中较多,而在根中较少,并且ECBP21在细胞中多分布于细胞壁区域;免疫胶体金电镜定位结果显示：在白芷花序轴细胞中金颗粒主要分布在细胞壁,表明ECBP21蛋白主要定位于细胞壁区域,从而首次为细胞外CaMBP(ECBP21)的胞外存在提供了直观证据,并为进一步研究其在植物生长发育中的功能提供了初步信息。     

Characterization of a cDNA coding for an extracellular calmodulin-binding protein from suspension-cultured cells of <Emphasis Type="Italic">Angelica dahurica</Emphasis>

In order to characterize a specific extracellular 21-kDa calmodulin-binding protein (named: ECBP21) from Angelica dahurica L. suspension-cultured cells, the cDNA coding for the protein has been cloned. Here, Southern blot analysis shows that there are at least two copies of ECBP21 gene in Angelica genome. Using truncated versions of ECBP21 and synthetic peptide in CaM binding assays, we mapped the calmodulin-binding domain to a 16-amino acid stretch (residues 200–215) at the C-terminal region. The ECBP21 was localized in the cell wall area by the immunogold electron microscopy and by GFP labeling method. These results define ECBP21 as a kind of an extracellular calmodulin-binding protein (CaMBP). Furthermore, using Northern blot analysis, we examined the expression dynamics of ecbp21 during the incubation of Angelica suspension-cultured cells and the treatments with some growth regulators. The above studies further provide the molecular evidence for the existence of the gene coding for extracellular CaMBPs and imply a possible role for ECBP21.G.-H. Mao and L.-X. Hou contributed equally to this work.     

花柱和花粉胞外钙调素对花粉萌发和花粉管伸长的影响

以烟草为材料,通过半体内实验,就花柱和花粉胞外钙调素对花粉萌发和花粉管伸长的影响进行了观察。发现用EGTA及钙调素抗血清处理柱头或花粉均可抑制花粉在柱头上的萌发;向花柱引导组织中显微注射纯化钙调素可促进花粉管束伸长,而注射钙调素抗血清可抑制花粉管束伸长;同时证实玉米花柱和花粉细胞壁中均存在钙调素及钙调素结合蛋白,而且花粉和花柱细胞壁中钙调素结合蛋白的种类有差异。结果表明存在于花粉和花柱细胞外的钙调素对花粉萌发和花粉管伸长均有促进作用。     

外源钙调蛋白对植物细胞分裂增殖作用的研究

外源钙调蛋白（Ｃａｌｍｏｄｕｌｉｎ,ＣａＭ）对胡萝卜悬浮细胞增殖具明显促进作用,不同浓度ＣａＭ的促进程度不同,７ｕｇ／ｍｌ时促进作用最大。ＣａＭ抑制剂ＴＦＰ（Ｔｒｉｆｌｕｏｐｅｒ－ａｚｉｎｅ）则明显抑制该悬浮细胞的增殖,ＴＦＰ浓度越高则抑制作用越强。另外,外源ＣａＭ可以加快珍珠梅花粉第二次有丝分裂,改变生殖细胞有丝分裂各期花粉管的比例,说明外源ＣａＭ对植物体细胞和性细胞的增殖和分裂均有促进作用。     

重组人钙调素的制备及对细胞增殖作用影响的研究

The gene coding for human CaM was amplified by PCR in which pUC/hCaM3 cDNA was usd as template. After inserting the hCaM III cDNA into the expression plasmid pBV220, we constructed the hCaM3 cDNA-recombinant expression vector(hCaM3/pBV220). The recombinant plasmid was then transformed into E. coli DH5 alpha. After heat induction, a high level expression of CaM protein was obtained. SDS-PAGE analysis showed that the recombinant E. coli could express a 17 kD protein which accounted for about 20% of the total cellular protein. Western blot analysis showed that anti-CaM monoclonal antibody(McAb) specifically bound to the 17 kD band of expression product. rhCaM was purified by Phenyl-sepharose CL-4B affinity chromatography from recombinant bacterial lysate. 3-4 mg of the purified protein were obtained from 1 liter of bacterial culture. The rhCaM was able to activate NAD kinase to the same extent as the standard human brain CaM (Sigma). K562 cells and SP2/0 cells were seeded in 24-well or 96-well plate and cultured for 48 h with rhCaM and CaM-antagonist trifluoperazine(TFP). Cell proliferation rates was determined by MTT assay. There was a significant positive correlation between the concentrations of rhCaM and the cell proliferation rates. CaM-antagonist TFP had an inhibitory effect on cell proliferation rate. The inhibition could be corrected by the addition of extracellular rhCaM.     

Extracellular calmodulin: A polypeptide signal in plants?

Traditionally, calmodulin (CaM) was thought to be a multi-functional receptor for intra-cellular Ca2+ signals. But in the last ten years, it was found that CaM also exists and acts extracel-lularly in animal and plant cells to regulate many important physiological functions. Laboratory studies by the authors showed that extracellular CaM in plant cells can stimulate the proliferation of suspension cultured cell and protoplast; regulate pollen germination and pollen tube elongation, and stimulate the light-independent gene expression of Rubisco small subunit (rbcS). Furthermore, we defined the trans-membrane and intracellular signal transduction pathways for extracellular CaM by using a pollen system. The components in this pathway include heterotrimeric G-protein, phospholipase C, IP3, calcium signal and protein phosphorylation etc. Based on our findings, we suggest that extracellular CaM is a polypeptide signal in plants. This idea strongly argues against the traditional concept that there is no interce     

An extracellular matrix, calmodulin-binding protein from Dictyostelium with EGF-like repeats that enhance cell motility

CyrA is a novel cysteine-rich protein with four EGFL repeats that was isolated using the calmodulin (CaM) binding overlay technique (CaMBOT), suggesting it is a CaM-binding protein (CaMBP). The full-length 63 kDa cyrA is cleaved into two major C-terminal fragments, cyrA-C45 and cyrA-C40. A putative CaM-binding domain was detected and both CaM-agarose binding and CaM immunoprecipitation verified that cyrA-C45 and cyrA-C40 each bind to CaM in both a Ca²⁺-dependent and -independent manner. cyrA-C45 was present continuously throughout growth and development but was secreted at high levels during the multicellular slug stage of Dictyostelium development. At this time, cyrA localizes to the extracellular matrix (ECM). ECM purification verified the presence of cyrA-C45. An 18 amino acid peptide (DdEGFL1) from the first EGFL repeat sequence of cyrA (EGFL1) that is present in both cyrA-C45 and -C40 enhances both random cell motility and cAMP-mediated chemotaxis. Here we reveal that the dose-dependent enhancement of motility by DdEGFL1 is related to the time of cell starvation. Addition of DdEGFL1 also inhibits cyrA proteolysis. The status of cyrA as an extracellular CaMBP was further clarified by the demonstration that CaM is secreted during development. Antagonism of CaM with W7 resulted in enhanced cyrA proteolysis suggesting a functional role for extracellular CaM in protecting CaMBPs from proteolysis. cyrA is the first extracellular CaMBP identified in Dictyostelium and since it is an ECM protein with EGF-like repeats that enhance cell motility and it likely also represents the first matricellular protein identified in a lower eukaryote.     

Extracellular calmodulin: A polypeptide signal in plants?

Traditionally, calmodulin (CaM) was thought to be a multi-functional receptor for intracellular Ca²⁺ signals. But in the last ten years, it was found that CaM also exists and acts extracellularly in animal and plant cells to regulate many important physiological functions. Laboratory studies by the authors showed that extracellular CaM in plant cells can stimulate the proliferation of suspension cultured cell and protoplast; regulate pollen germination and pollen tube elongation, and stimulate the light-independent gene expression of Rubisco small subunit (rbcS). Furthermore, we defined the trans-membrane and intracellular signal transduction pathways for extracellular CaM by using a pollen system. The components in this pathway include heterotrimeric G-protein, phospholipase C, IP₃, calcium signal and protein phosphorylation etc. Based on our findings, we suggest that extracellular CaM is a polypeptide signal in plants. This idea strongly argues against the traditional concept that there is no intercellular polypeptide signal in plants.     

Extracellular calmodulin-binding proteins in plants: purification of a 21-kDa calmodulin-binding protein

A 21-kDa calmodulin (CaM)-binding protein and a 19-kDa calmodulin-binding protein were detected in 0.1 M CaCl₂ extracts of Angelica dahurica L. suspension-cultured cells and carrot (Daucus carota L.) suspension-cultured cells, respectively, using a biotinylated cauliflower CaM gel-overlay technique in the presence of 1 mM Ca²⁺. No bands, or very weak bands, were shown on sodium dodecyl sulfate-polyacrylamide gel electrophoresis gels overlayed with biotinylated cauliflower CaM when 1 mM Ca²⁺ was replaced by 5 mM EGTA, indicating that the binding of these two CaM-binding proteins to CaM was dependent on Ca²⁺. Less 21-kDa CaM-binding protein was found in culture medium of Angelica dahurica suspension cells; however, a 21-kDa protein was abundant in the cell wall. We believe that the 21-kDa CaM-binding protein is mainly in the cell wall of Angelica dahurica. Based on its reaction with periodic acid-Schiff (PAS) reagent, this 21-kDa protein would appear to be a glycoprotein. The 21-kDa CaM-binding protein was purified by a procedure including Sephadex G-100 gel filtration and CM-Sepharose cation-exchange column chromatography. The purity reached 91% according to gel scanning. The purified 21-kDa CaM-binding protein inhibited the activity of CaM-dependent NAD kinase and the degree of inhibition increased with augmentation of the 21-kDa protein, which appeared to be the typical characteristic of CaM-binding protein.     

转脂蛋白CaMBP10的胶体金标记及对白菜中CaMBP10结合蛋白的鉴定

植物转脂蛋白 (LTP)是一类广泛存在于高等植物中的空间结构高度保守的碱性小分子蛋白,其确切功能和调节机制至今仍不清楚.本室从白菜中分离的钙调素结合 蛋白10 (CaMBP10),经序列分析被鉴定为植物转脂蛋白家族成员.近期研究结果表明 ,CaMBP10 参与了植物的生物与非生物胁迫反应.为了深入探讨CaMBP10的抗性机制,确定植物中与其相互作用的蛋白质,本文拟建立胶体金标记CaMBP10 的方法,通过凝胶覆盖分析,检测植物样品中的CaMBP10 结合蛋白为此,对标记反应的最适条件进行了优化,确定最佳条件为：交联剂戊二醛用量为0.034%,交联反应pH值为7 .0,交联反应时间为40 min,胶体金颗粒度为10 nm,胶体金溶液的pH为7.0. 本文确定建立了植物样品中CaMBP10结合蛋白的分析与鉴定方法.