地中海拟无枝酸杆菌甲基丙二酰CoA变位酶和消旋酶的纯化及性质

采用原生质体裂解方法确定甲基丙二酰CoA变位酶(MCM)和消旋酶(MCR)均是胞浆内酶。各经过四步纯化得到电泳纯酶。纯化MCM酶的比活力为12.84u/mg,纯化倍数为528,酶活回收为60％,纯化的MCM酶服从典型的米氏底物饱和曲线,对琥珀酰CoA和辅酶B_(12)的K_m值分别为9.723#mol/L和0.1277#mol/L。经SephadexG-150测定MCM分子量约为134.000±2000,SDS-聚丙烯酰胺凝胶电泳显示两条分子量分别为67000和65000的蛋白带,说明该酶由两个大小不等亚基组成。吸收光谱测定每摩尔纯化全酶含两摩尔辅酶B_(12)。纯化MCR酶比活力为2.305u/mg,纯化倍数96,酶活回收46.7％。MCR酶由两个分子量均为17500的亚基组成。MCR酶活性能被二价金属离子Cu²⁺、Co²⁺、Mg²⁺、Mn²⁺和Fe²⁺所促进。两酶的酶学性质和其他生物来源的MCM、MCR酶明显相似。     

丝孢酵母高甲硫氨酸突变株的选育及营养调控

以丝孢酵母(Trichosporon Behr)ST851为原始菌株,经紫外线诱变,在含乙硫氨酸的双层平板上筛选到多株抗乙硫氨酸突变株。其中ST851-10株抗乙硫氨酸浓度达到350μg/ml,其菌体蛋白质含量由40.5％提高到44.3％,菌体甲硫氨酸含量由20.45mg/g-DCW增加到29.32mg/g-DCW。在以苹果渣为碳源、尿素为氮源、硫酸镁作硫源的最适培养条件下,固态发酵24h后,蛋白质和甲硫氨酸含量较原始菌株分别提高了15.8％和44.9％。培养基中C/N值低有利于甲硫氨酸的合成,C/N值高则适合于菌体生长。在苹果渣固态发酵过程中,适当补加氮源既有利于菌体生长和甲硫氨酸的合成,又可起到调节培养基pH值的作用。     

力复霉素前体甲基丙二酰CoA合成途径的研究

力复霉素合成的碳前体之一(2R)—甲基丙二酰CoA至少可以有三条酶学合成途径。三条途径中的关键酶分别为甲基丙二酰CoA转羧基酶、丙二酰CoA羧化酶、甲基丙二酰CoA变位酶和甲基丙二酰CoA消旋酶。通过比较各个酶活性的时间进程和力复霉素合成时间的相关性,以及各个酶的底物亲合力,对它们在地中海拟无枝酸菌(Amycolatopsis mediterranei)甲基丙二酰CoA合成中的贡献作了排序,发现甲基丙二酰CoA变位酶途径是主要负责酶系。但是各个途径的贡献排序并不是固定不变的,能受到环境因素的调控,丙酸盐的加入将抑制甲基丙二酰CoA变位酶活力,而使得甲基丙二酰CoA转羧基酶成为主要酶系。甲基丙二酰CoA合成途径的多样性有助于细胞对环境变化的灵活反应。此外,对各个酶的调控特性也进行了研究。     

链孢囊放线菌及其相关菌的数值分类研究

对链孢囊菌属的28株放线菌和4株气丝可形成孢囊的放线菌进行了形态、生理生化特性、生长条件、抗生素敏感性、抗菌谱等107项试验测定。根据Ssm相似性系数及平均链锁聚类方式,借助于电子计算机对这些菌株进行了比较。结果表明,11株国际公认的链孢囊菌属的标准菌和一株已知的链孢囊菌与供试未知菌,在59％的水平上归为一群。通过数值分类把所比较的菌株在77％水平上区分为不同的表观群,为进一步的分子分类学研究和种的鉴定提供了依据。     

Human peroxisome assembly factor-2 (PAF-2): a gene responsible for group C peroxisome biogenesis disorder in humans.

Peroxisome-biogenesis disorders (PBD) are genetically heterogeneous and can be classified into at least ten complementation groups. We recently isolated the cDNA for rat peroxisome assembly factor-2 (PAF-2) by functional complementation using the peroxisome-deficient Chinese-hamster-ovary cell mutant, ZP92. To clarify the novel pathogenic gene of PBD, we cloned the full-length human PAF-2 cDNA that morphologically and biochemically restores peroxisomes of group C Zellweger fibroblasts (the same as group 4 in the Kennedy-Krieger Institute) and identified two pathogenic mutations in the PAF-2 gene in two patients with group C Zellweger syndrome. The 2,940-bp open reading frame of the human PAF-2 cDNA encodes a 980-amino-acid protein that shows 87.1% identity with rat PAF-2 and also restored the peroxisome assembly after gene transfer to fibroblasts of group C patients. Direct sequencing of the PAF-2 gene revealed a homozygous 1-bp insertion at nucleotide 511 (511 insT) in one patient with group C Zellweger syndrome (ZS), which introduces a premature termination codon in the PAF-2 gene, and, in the second patient, revealed a splice-site mutation in intron 3 (IVS3+1G-->A), which skipped exon 3, an event that leads to peroxisome deficiency. Chromosome mapping utilizing FISH indicates that PAF-2 is located on chromosome 6p21.1. These results confirm that human PAF-2 cDNA restores peroxisome of group C cells and that defects in the PAF-2 produce peroxisome deficiency of group C PBD.     

Auxin levels and auxin binding protein availability inrolB transformedBeta vulgaris cells

The final biological effect of auxin depends both on free auxin levels and on auxin perception capacity.RolB transformedBeta vulgaris L. hairy roots provide a system for studying both factors. Highly purified plasma membrane fractions were prepared with aqueous two-phase partitioning. Individual hairy root clones were assessed for the binding activities of plasma membrane-bound auxin binding proteins and for their free intracellular indole-3-acetic acid levels. The presence of a high affinity auxin binding protein with a dissociation constant of 9.07 x 10^?7 M was detected in the plasma membrane fractions isolated from non-transformed seedling roots and the six clones ofrolB transformed hairy roots. However, the levels of specific IAA binding considerably varied among different hairy root clones and between transformed and non-transformed roots. The levels of the detectable polypeptide in immunoblotting with an antibody against maize 22-kD auxin binding protein subunit were in good agreement to the levels that were detected in auxin binding assays. Differences in the indole-3-acetic acid levels were found between transformed and non-transformed roots and also between different transformed hairy root clones. A negative correlation was observed between free intracellular IAA levels and its specific binding to the plasma membrane-bound auxin binding proteins. A latency study indicated that the binding site for auxin may be located on the exterior face of the plasma membrane     

Faster voltage-dependent activation of Na+ channels in growth cones versus somata of neuroblastoma N1E-115 cells.

Kinetics of voltage-gated ionic channels fundamentally reflect the response of the channels to local electric fields. In this report cell-attached patch-clamp studies reveal that the voltage-dependent activation rate of sodium channels residing in the growth cone membrane differs from that of soma sodium channels in differentiating N1E-115 neuroblastoma cells. Because other electrophysiological properties of these channels do not differ, this finding may be a reflection of the difference in intramembrane electric field in these two regions of the cell. This represents a new mechanism for channels to attain a range of activities both within and between cells.     

腥黑粉菌属一新种

本文报道了从意大利进口兔尾草(Lagurus ovatus L.)上截获的腥黑粉菌属一新种——兔尾草腥黑粉菌(Tilletia laguri G.M.Zhang,G.X.Lin & J.R.Deng),同时讨论了该种与近似种的区别,文中对其形态特征有拉丁文和汉文描述,并附有图片。主模式标本保存在深圳动植物检疫局真菌标本室,等模式标本分别保存在德国蒂宾根大学范基黑粉菌标本馆(HUV)、中国科学院微生物研究所真菌标本室和华南农业大学植保系真菌标本室。