Fine mapping of the red plant gene R1 in upland cotton(Gossypium hirsutum)

Sub 16 is a substitution line with G. hirsutum cv. TM-1 genetic background except that the 16th chromosome (Chr. 16) is replaced by the corresponding homozygous chromosome of G. barbadense cv. 3-79, and T586 is a G. hirsutum multiple gene marker line with 8 dominant mutation genes. The R ₁ gene for anthocyanin pigmentation was tagged in Chr. 16 in T586. The objective of this research was to screen SSR markers tightly linked with R ₁ by using the F₂ segregating population containing 1259 plants derived from the cross of Sub 16 and T586 and the backbone genetic linkage map from G. hirsutum×G. barbadense BC₁ newly updated by our laboratory. Genetic analysis suggested that the segregation ratio of red plants in the F₂ population fit Mendelian 1:2:1 inheritance, confirming that the red plant trait was controlled by an incomplete dominance gene. Preliminary mapping of R ₁ was conducted using 237 randomLy selected F₂ individuals and JoinMap v3.0 software. Then, a fine map of R1 was constructed using the F₂ segregating population containing 1259 plants, and R ₁ was located between NAU4956 and NAU6752, with only 0.49 cM to the nearest maker loci (NAU6752). These results provided a foundation for map-based cloning of R ₁ and further development of cotton cultivars with red fibers by transgenic technology. Supported by National Natural Science Foundation of China (Grant No. 30730067) and Programme of Introducing Talents of Discipline to Universities (Grant No. B08025)     

Fine mapping of the dominant glandless Gene Gl2^e in Sea-island cotton （Gossypium barbadense L.）

Gle2 is a mutant gene that controls glandless trait in cotton plants and seeds. It is an important gene resource to gossypol-free cottonseed breeding. The objective of this research was to develop SSR markers tightly linked with Gle2 by using the F2 segregating population containing 1599 plants derived from the cross of G. hirsutum genetic standard line TM-1 and G. barbadense glandless mutant line Hai-1. Genetic analysis suggested that the Gle2 was an incomplete dominant gene. Based on the backbone of genetic linkage map from G. hirsutum × G. barbadense BC1 published by our laboratory,Gle2 was lo-cated between CIR362 and NAU2251b,NAU3860b,STV033,with a genetic distance 9.27 and 0.96 cM,respectively. This result is useful for cloning Gle2 gene by map-based cloning method.     

Activity of the truncated promoter of pollen-specific G9 gene of cotton and the transgenic recessive nuclei-sterile tobacco

A 557 bp fragment from the translation initiation site of the G9 gene expressed in maturing pollens of cotton was isolated from genomic DNA of upland cotton (Gossypium hirsutum L.) cv. “Zhongkang 17”, and two expression vectors for plant transformation were constructed via fusing this fragment with β-glucuronidase gene (Gus) and cytotoxin gene Barnase. The promoter activity of this fragment was demonstrated via transient expression of Gus gene in cotton and by the integrated expression of Barnase gene in tobacco. This promoter can initiate the expression of exogenous gene specifically and efficiently in plant pollen. The transgenic tobacco plant containing G9-Barnase fusion gene showed the characteristics of recessive nuclei-sterility.     

Molecular cytogenetic analysis of Triticum aestivum-Leymus racemosus reciprocal chromosomal translocation T7DS·5LrL/T5LrS·7DL

In order to induce chromosome translocation between wheat chromosomes and chromosome 5Lr of Leymus racemosus, the mi- crosporocytes during meiosis of T. aestivum-L. racemosus disomic addition line DA5Lr were irradiated by 60Co γ-rays 800 R (100 R/min). Before flowering, the treated spikes were emasculated and bagged. After 2-3 d, the emasculated flowerets were pollinated using pollens from T. aestivum cv. Chinese Spring. One plant with two translocation chromosomes involved in both the long and short arm of...     

Fractalkine基因真核表达质粒的构建及其在小鼠肝癌细胞中的表达

为克隆小鼠趋化因子Fractalkine(．FK)基因，构建真核表达质粒，并在小鼠肝癌细胞中表达，用以进行肿瘤的基因治疗，用RT-PCR法，从小鼠乳腺癌细胞D2F2扩增FK的cDNA，插入pCR2．1 TOPO载体，测序证实后，将其亚克隆至质粒pIRES中构建FK真核表达载体；用脂质体将重组质粒转染小鼠肝癌MM45 T．Li细胞，经G418筛选获得抗性细胞克隆，用RT-PCR和免疫化学方法鉴定转染细胞中FK基因的表达．结果表明：经限制性内切酶酶切图谱分析和DNA序列测定证实目的基因已插入重组质粒，RT-PCR和免疫化学方法证明转基因MM45T．Li细胞克隆中存在小鼠FK基因的表达。     

Transgene inheritance and quality improvement by expressing novel HMW glutenin subunit （HMW-GS）genes in winter wheat

The expression vector pBPC30, which carries the high molecular weight glutenin subunit (HMW-GS) 1Dx5 and 1Dy10 genes, was transferred into hexaploid winter wheat cv. Jinghua No. 1, Jing411 and Jingdong No. 6 explants of immature embryos and immature inflorescence by particle bombardment. A large number of resistant transgenic plants were obtained under the selection of herbicide bialaphos or phosphinothricin (PPT). Confirmed transgenic plants of To generation showed successful integration of HMW-GS genes and bar gene into the wheat genome. T1 generation of transgenic plants can resist 20--150 mg/L PPT.Protein analysis of T2 seed by SDS-PAGE showed that HMW-GS 1Dx5 and 1DylO genes were well expressed in offspring seed of transgenic lines by co-expression with or substitution of endogenous 1Dx2 or 1DylO. In one transgenic line, TG3-74, a new protein band between endogenous protein subunits 7 and 8 (marked as 8*) of glutenin appeared,but endogenous subunit 8 (encoded by 1By8 gene) was absent. Analysis of gluten rheological quality on seed proteins of 102 T3 plants showed that the sedimentation value of 5 transgenic lines (44.2149.0 mL) was remarkably improved,59.6%---64.3% higher than that of wild type Jinghua No. 1 and Jingdong No. 6, similar to bread wheat Cheyenne (48.0 mL). Analysis of dough rheological properties of transgenic lines showed that the dough stable time of 5 transgenic lines range from 16 to 30 min, whereas the dough stable time of wild type was only between 3--7 min. Our research suggests that introducing novel HMW-GS genes into wheat is an efficient way to improve its bread-making quality.     

中国明对虾与5种虾类线粒体16S rRNA和COI基因片段的序列比较及其系统学初步研究

采用PCR扩增和序列测定等技术,对中国明对虾（Fennerpenaeus chinem如）线粒体DNA16S rRNA和细胞色素氧化酶I（COI）基因片段进行了初步研究,分别得到16S rRNA和COI 2个基因片段的碱基序列,其中16S rRNA基因片段的大小为515bp,碱基A＋T,G＋C的组成分别为66．47％和33．53％;COI基因片段的大小为472bp,碱基A＋T,G＋C的组成分别为62．50％和37．29％．在2种基因片段中,AT的组成明显高于GC的组成,这与果蝇、虾类、蟹类等无脊椎动物的16S rRNA和COI基因片段的研究结果相似．通过对中国明对虾16S rRNA和COI 2个基因片段遗传特征的研究,16S rRNA只有8处核苷酸的碱基在4个群体间表现出差异,COI基因片段中共检测出24个多态性核苷酸位点,其种内变异较低。另外,将本研究所得序列与GenBank中对虾科5个种的16S rRNA基因片段序列进行比较后,发现其聚类关系与传统分类相一致．     

Embryological and molecular investigations of parental imprinting on mouse chromosome 7

Mouse embryos with duplications of whole maternal (parthenogenetic and gynogenetic) or paternal (androgenetic) genomes show reciprocal phenotypes and do not develop to term. Genetic complementation has identified the distal region of chromosome 7 (Chr 7) as one of the regions for which both a maternal and paternal chromosome copy are essential for normal development, presumably because of the presence of imprinted genes whose expression is dependent on their parental origin. Embryos with the maternal duplication and paternal deficiency of distal Chr 7 are growth retarded and die around day 16 of gestation; the reciprocal paternal duplication embryos die at an unidentified earlier stage. We report here the incorporation of cells with the paternal duplication into chimaeras, resulting in a striking growth enhancement of the embryos. One gene located on mouse distal Chr 7 (ref. 5) is the insulin-like growth factor 2 (Igf2) gene, an embryonic mitogen. In embryos with the maternal duplication of distal Chr 7, the two maternal alleles of the Igf2 gene are repressed. The presence of two paternal alleles of this gene in many cells is probably responsible for the growth enhancement observed in chimaeras. We propose that there are other imprinted genes in this Chr 7 region. We also compare the imprinting of this subgenomic region with phenotypes resulting from the duplication of the whole parental genome in parthenogenones and androgenones.     

用计算机对人类TSPYl基因P53结合位点的鉴定

根据p53下游基因在其调节区域（启动子或内含子）含有与P53蛋白特异性结合的一致性序列5’-RRRCWWGYYYN（0-13）RRRCWWGYYY-3’，R—G或A，W—T或A，Y—C或T，N—A，C，T，G。用计算机对人类基因组中P53结合位点进行了研究，发现Y染色体上的TSPY1基因内含子中含有这样的一致性序列5’-GGGCTAGTTTtgGAGCTAGCCT-3’，意味着TSPY1基因有可能是一个p53下游基因。     

Primary investigation on GISH-NOR in cotton

Six loci of nucleolar organizer region (NOR) were detected in genomic in situ hybridization (GISH) of cotton (Gossypium). NOR was the characteristic of 45S rDNA but could be generated by genomic DNA (gDNA) extracted from Gossypium species as probe. With twice FISH to the same mitotic cell of G herbaceum or G hirsutum, number, position and size for NORs generated from 45S rDNA and gDNA were identified largely similar or even the same. The NORs with gDNA as probe were therefore permanently defined as GISH-NORs. GISH-NORs from G hirsutum and Graimondii mitotic images were all terminal types. Four and two GISH-NORs from G herbaceum (var. africanum) were terminal and centromere types, respectively. Six GISH-NORs in G hirsutum were chromosome mapped with two in A- and four in D-subgenomes. There were also GISH-NORs in mitotic image of G raimondii with its own gDNA as probe. From mitotic image of G herbaceum with its own gDNA as probe, GISH-NOR could not be observed but non-wholerecovery of hybridized signals was distinguished. These non-whole-recovery of hybridized signals were detected on long arm terminals of most chromosomes and especially existed in nearly half long arm of a pair of chromosomes in Gherbaceum gDNA probed itself GISH image, which may be possibly induced by low copy genes within the regions rather than inter-subgenomic segment translocations. GISH-NORs in G hirsutum mitotic images were dominantly observed when gDNAs from D and A genome species were used as probes and block, respectively, but not when the reverse probe and block gDNA from the two diploid progenitor genomes were designed. There may be two speculations to this special phenomenon: rDNA concerted evolution; content of rDNA in genome D more than genome A.     

A ribonucleotide reductase gene involved in a p53-dependent cell-cycle checkpoint for DNA damage

The p53 gene is frequently inactivated in human cancers. Here we have isolated a p53-inducible gene, p53R2, by using differential display to examine messenger RNAs in a cancer-derived human cell line carrying a highly regulated wild-type p53 expression system. p53R2 contains a p53-binding sequence in intron 1 and encodes a 351-amino-acid peptide with striking similarity to the ribonucleotide reductase small subunit (R2), which is important in DNA synthesis during cell division. Expression of p53R2, but not R2, was induced by ultraviolet and gamma-irradiation and adriamycin treatment in a wild-type p53-dependent manner. Induction of p53R2 in p53-deficient cells caused G2/M arrest and prevented cells from death in response to adriamycin. Inhibition of endogenous p53R2 expression in cells that have an intact p53-dependent DNA damage checkpoint reduced ribonucleotide reductase activity, DNA repair and cell survival after exposure to various genotoxins. Our results indicate that p53R2 encodes a ribonucleotide reductase that is directly involved in the p53 checkpoint for repair of damaged DNA. The discovery of p53R2 clarifies a relationship between a ribonucleotide reductase activity involved in repair of damaged DNA and tumour suppression by p53.     

Regeneration and identification of interspecific asymmetric somatic hybrids obtained by donor-recipient fusion in cotton

Asymmetric hybrids between Gossypium hirsutum （YZ-1） and G. davidsonii were obtained by donor-recipient fusion. YZ-1 was considered the recipient and was pretreated with iodoacetamide （IOA）, while G. davidsonii was considered the donor and was irradiated with ultraviolet （UV） before fusion. YZ-1 protoplasts stopped growth when treated with 0.5 mmol/L IOA for 20 min, and G. davidsonii protoplasts stopped growth when irradiated with 38.7 J/cm2 UV for 30 s. Asymmetric somatic hybrids were obtained by electrofusion between the separately treated protoplasts of the 2 species. The regenerated plants were identified by morphological, cytological, and molecular analysis. Most regenerated plants derived from fused protoplasts displayed new morphology; some were intermediate between the two parents and a few displayed recipient-like morphology. Chromosome numbers in these somatic hybrids mostly ranged from 40 to 73. The hybridity was confirmed by random amplified polymorphic DNA and simple sequence repeat analysis. Organelle DNA inheritance of the YZ-1 and G. davidsonii somatic hybrid was investigated by cleaved amplified polymorphism sequence and chloroplast simple sequence repeat analysis, which indicated that recombination and rearrangements might have occurred in some regions of mitochondrial and chloroplastic DNA. This is the first report of completely asymmetric hybrid production via donor–recipient fusion between G. hirsutum and G. davidsonii, which is a novel case in hybrid production following the symmetric fusion and asymmetric fusion based on UV irradiation in cotton.     

Banach空间上有界线性算子的广义谱分析

在文献[1]的基础上,进一步在Banach空间上讨论了有界线性算子T的广义谱集σG(T),证明了当λ∈σR(T)∪σP(T)时R(Tλ)闭,则σG(T)即为经典谱分类中的T的连续谱集σC(T).     

一个烟草PR-1a启动子的克隆及序列分析

通过PCR扩增，从烟草Nicotiana tabacum cv Samsun中克隆了水杨酸诱导表达的病程相关蛋白PR-la基因的启动子TP12，以期用于构建诱导表达基因敲除系统，并用于无性繁殖植物的无标记基因转化。启动子的克隆产物经正反两向测序后，拼接分析结果表明，扩增得到的PR-1α基因启动子长1313个碱基，序列富含AT，其中A T占71．67％，与已报道的序列比较，核苷酸的相似性为98．6％。     

PinX1基因真核表达载体的构建及其对乳腺癌MCF-7细胞增殖的抑制作用

探讨了PinX1 基因在乳腺癌MCF-7 细胞生长和细胞周期中的作用, 初步探讨了该基因用于乳腺癌临床治疗的可行性. 采用RT-PCR 技术从293-T 细胞中扩增PinX1 基因, 将其克隆入真核表达载体pEGFP-C1 中, 再将重组质粒转染MCF-7 细胞. 通过real-time PCR 检测PinX1 基因的mRNA 表达, 用MTT 法检测转染前后细胞生长曲线的变化, 用流式细胞仪检测转染目的基因后细胞生长周期的改变. 检测结果表明, PinX1 基因已经在转染后MCF-7 细胞的细胞核内稳定表达, 乳腺癌细胞生长明显减缓(P <0.05), 增殖变慢(P <0.05), 细胞生长阻滞于G0/G1 期, 说明PinX1 基因可抑制乳腺癌MCF-7 细胞的生长和增殖.     

黄曲霉毒素B1(AFB1)降解菌的筛选鉴定

以香豆素为唯一碳源和能源的培养基进行初筛,然后将菌株与黄曲霉毒素B1(AFB1)共培养后测定AFB1降解率的方法进行复筛,最后筛选出4株高活性AFB,降解菌;其中G3-21和T1-4-1对AFB1降解率可达到65％,Y2-30和T1-3-7对AFB1的降解率达到45％以上,形态和16S rDNA序列分析鉴定结果表明,G...     

转基因水稻纯系对褐飞虱的抗性研究

利用基因枪法将含潮霉素抗性基因、ＧＵＳ报告基因和雪花莲凝集基因的２个质粒ｐＷＲＧ１５１５和ｐＲＳＳＧＡ１共同转化粳稻品种鄂宜１０５的成熟胚诱导的愈伤组织,从轰击的１５２块愈伤组织中共再生出２６株独立转基因植株,ＰＣＲ／Ｓｏｕｔｈｅｒｎ印迹法分析发现,７３％的转基因植株含有所有３个外源基因,遗传分析证实外泊基因在转基因植株后代中以孟德尔方式遗传,从其Ｒ１代亲本为孟德尔３：１方式遗传的Ｒ２代中,鉴定出     

桑青枯病病原G12-9内切葡聚糖酶基因的克隆和分类

桑青枯病是一种土传性细菌病害,从广东省桑园发生青枯病的桑树根部分离得到1株病原菌G12-9;经鉴定确定该菌为青枯菌（Ralstonia solanacearum）,该病原菌在TZC固体培养基上呈圆形及不规则圆形,菌落中央呈现淡红色,革兰氏染色成阴性。对G12-9分离株内切葡聚糖酶基因的克隆、序列测定及聚类分析结果表明,桑青枯菌G12-9内切葡聚糖酶属于糖基水解酶家族12。青枯菌最重要的致病性分泌系统为Ⅱ、Ⅲ、Ⅳ型分泌系统,内切葡聚糖酶属于细菌Ⅱ型分泌系统,内切葡聚糖酶对于青枯菌的定植及寄主植物的致病性有着非常重要的作用,明确该酶在糖基水解酶家族的分类地位对桑青枯病的防治具有重要意义。     

拉布拉多犬与金毛猎犬毛色基因MC1R(R306ter)与TYRP1(Q331ter)SNP位点的检测

目的建立犬毛色基因MC1R R306ter(c.C916T)与TYRP1 Q331ter(c.C991T)SNP位点的检测方法。方法采用PCR/测序的方法,对19只拉布拉多犬和15只金毛猎犬的MC1R基因c.C916T SNP位点及TYRP1基因c.C991T SNP位点的多态性进行检测,根据MC1R和TYRP1的多态性对犬的毛色基因型进行分析。结果 PCR/测序法能够对TYRP1基因c.C991T SNP位点进行明确和有效的检测。但MC1R基因c.C916T SNP位点的测序结果出现了特殊峰,经克隆/测序法确认该特殊峰型为杂合性SNP位点。毛色基因型分析表明,金毛猎犬的毛色基因型皆为纯合的eeBB(15只),未见其他基因型。拉布拉多犬的毛色基因型分别为:黑色犬EeBB(6只)、EeBb(2只);黄色犬eeBB(9只)、eeBb(2只)。未发现其他如EEBB和EEBb(黑色)、eebb(黄色)的毛色基因型。另外,拉布拉多犬样本中没有巧克力色犬,也未检测出其相应的Eebb和EEbb基因型。结论本研究成功建立了犬毛色基因MC1R R306ter(c.C916T)与TYRP1 Q331ter(c.C991T)SNP位点的检测方法,为分析毛色基因型与导盲犬培训成功率之间的相关性提供了前期工作基础。