利用从芽途径快速繁殖蝴蝶兰的研究

报道了利用从生芽途径快速繁殖蝴蝶兰的研究结果,试验表明:培养基MS+BA1.0mg·L-1+NAA0.05mg·L-1+GA30.5mg·L-1能够诱导花梗休眠芽转化为营养芽.花梗芽在培养基MS+BA5.0mg·L-1+NAA0.05mg·L-1上能够诱导产生丛生芽.在丛生芽增殖阶段,以BA12.5mg·L-1+NAA0.05mg·L-1的增殖效果最好.BA、KT、ZT均能诱导产生"丛生芽",其中以ZT和BA的诱导效果最好.另外,在增殖阶段,外植体采用双芽接较单芽接的增殖效果好.在生根阶段以1 2MS+NAA0.5mg·L-1+w=0.2%的活性炭+φ=10%的椰子水的生根效果较佳,生根率可达100%,且植株生长健壮.试管苗移栽在水苔上的成活率较高,成活率达96 7%.     

大麦叶色转换突变系的转换特性及其基因控制

对大麦叶色转换突变系的研究结果表明：大麦叶色转换突变系的叶色转换特性是受遗传与环境因素共同控制的,植株转色的表现要有适宜外界环境条件的诱导,否则与其它间类型的大麦无异;植株转色的根本原因是叶根素合成代谢变化的结果,突变系转色期间叶绿素的合成过程受阻,且受阻部位在ＡＬＡ形成之后;突变系叶色转换特性的表现是由隐性、单核基因控制的．     

重组人睫状神经营养因子突变体的制备及PEG修饰

通过大肠杆菌重组表达人睫状神经营养因子突变体(CNTFm),并进行PEG修饰,旨在降低免疫原性.该突变体将天然CNTF的C端15个氨基酸删除,大肠杆菌表达的CNTFm以包含体形式存在,经复性、纯化获得纯度达到95%的目的蛋白.体内生物学活性测定结果显示,给药10 d,小鼠最大体重减少率达31%,产生的最高中和抗体滴度达到1:6 400; 经PEG修饰,CNTF突变体的生物学活性降低了34%,但最高中和抗体滴度降低到1:800.该PEG修饰后的CNTFm制备工艺有望为CNTF的临床应用开辟道路.     

Variation induced by DNA rearrangement in a transgenicBt+CpTI cotton strain

In the development of transgenicBt + CpTI cotton cultivars, one male and female sterile mutant has been found in a homozygous T₄ strain in our laboratory. The mutant plant, as well as its leaves, buds and flowers, is only 1/2–1/3 as large as that of the wild transgenicBt + CpTI bivalant cotton plants. Cytological observation found that the chromosome number of the mutant is 2n = 52; however, there are 4–8 univalents observed in meiosis I of pollen mother cells. Laboratory bioassay indicated that the mutant was highly resistant to bollworm as the wild plants. PCR amplification revealed thatBt andCpTI genes in the mutant were still intactly inserted. However, small deletion of flanked area had been observed in the mutant by Southern blotting analysis. So it is proposed that the mutant phenotype might result from either the DNA deletion or T-DNA transferring in plant genome. No such report has been presented that the rearrangement of chromosome structure in a homozygous transgenic line occurred. Further analysis is ongoing.     

高活力天冬氨酸酶的分离提纯及性质

采用基因工程技术构建具有较高活性的突变菌株 Ｔ３３， 以它为产酶菌株分离提取天冬氨酸酶， 并研究它的酶学特性． 结果表明， 分子量为 １９０ ０００． 最适反应 ｐ Ｈ＝ ８０， 最适反应温度为 ３７ ℃． 在ｐ Ｈ＝ ６０ 时， 该酶呈负协同效应； 在ｐ Ｈ＝ ８０ 时， 该酶呈正协同效应． 该酶α螺旋度为３６３％     

基因弹性研究

以生物信息论的观点研究了基因弹性,定义了基因弹性等概念,提出了基因弹性系数表达与测定方法,并用水稻穗部性状受播期影响而获得的试验结果进行了演示.     

Construction and genetic analysis of mutator insertion mutant population in maize

A total of 26718 M1 plants were ob- tained by crossing the active mutator transposon donor parents (Q105, WW51, 115F, V26-2 and 919J) with the recipient parents (Hz85,W328 with Bz gene and S-Mo17Rf3Rf3). The phenotypes of M1 plants were observed in the field. M1 plants were self-pollinated to develop the mutator insertion-mutagenized M2 seeds. The transposition frequency of the mutator in the genome was calculated based on the spotted aleurone phenotype of the M2 seeds. The results showed that: (1) the mutation frequency of M1 phe- notypes in the field was 0.07 in the population of W328×Mu; (2) the mutation frequency of spotted aleurone seeds on the M2 ears was 0.122 in the population of W328×Mu; (3) five S-cytoplasm male-sterile plants were found among 22500 M1 plants of S-Mo17Rf3Rf3×Mu, with the transposition frequency about 2.2×10?4 per locus. 99 flanking se- quences of mutator transposition were amplified by the modified MuTAIL-PCR, and 59 non-redundant sequences with length around 400 bp were obtained. After bioinformatic analysis, 27 sequences of them could be annotated, using non-redundant nucleotide database of maize, rice, and Arabidopsis. 36 se- quences of them were located on the genetic map of maize by comparative genomics, and several flank- ing sequences of mutator insertion were mapped on the single marker locus. Hotspot sequences of mu- tator transposition were revealed by comparing the homologies between the 9-bp target site duplication of the mutator insertion. The putative functions of 8 flanking sequences of mutator transposition had identity with the functions of their correspondingmarker. The constructed mutator insertion mutant population in maize will facilitate the new gene discovery and functional genomics study in maize.