小米psbA基因5''末端非编码区的结构特征

以小米(Setaria italica)为材料,克隆了含有叶绿体psbA基因的2.2kb EcoRⅠ片段,测定了该基因5＇末端非编码区的核苷酸序列。序列分析显示psbA基因5＇末端非编码区存在着与原核类似的启动子结构,其“-10”区的序列为TATACT,与原核生物“-10”共有基序(Consensus motif)仅相差一个核苷酸;其“-35”区的序列为TTGACA,与原核生物“-35”共有基序完全相同。另外,在“-10”区和“-35”区之间还存在着一个类似真核启动子结构的“TATATA”保守序列。这些结果表明小米psbA基因的启动子既具有原核的特征又具有真核的特征。小米psbA基因的mRNA前导序列长87bp,与高粱完全一致,而比水稻多出了“CTATTTT”7个核苷酸,比小麦、大麦和黑麦多出了“TTTT”4个核苷酸。因此推测在禾本科的C_3和C_4植物之间,psbA基因mRNA前导序列区的差异可能具有普遍性。计算机分析结果显示,以上6种植物的psbA基因mRNA前导序列区内均能形成小的茎环结构,而且这段“CTATTTT”额外序列恰好位于茎环结构中,造成了6种植物间茎环大小的差异。这一小的二级结构可能对psbA基因的表达调控有一定的影响。     

Analysis of developmental switching in transgenic mice with 5′ and 3′ deletions in the human β globin gene

Our interest in thecis-acting elements that promote the up-regulation of the globin gene has led to a systematic deletion analysis of portions of the globin gene in the context of the HS2 and globin gene using transgenic mice. In constructs that delete the 5 region to only 265 bp, high-level erythroid-specific expression was observed. Further deletion to 122 bp, however, results in significantly reduced expression levels A substitution of a minilocus control region for the single HS2 site was also produced, resulting in increased globin expression over that seen with the HS2 alone. These results are consistent with the presence of an enhancer-like element between –122 and –265. In addition, a construct in which the entire globin gene promoter was replaced by a thymidine kinase promoter was tested. Interestingly, no expression was detected in these transgenic mice. This may indicate the requirement for an erythroid-specific promoter to drive this gene. Finally, the 3 region of the globin gene was deleted in order to examine the effect of a previously defined 3 enhancer region. With deletion of this region, the expression of the human globin gene in transgenic mice is unchanged relative to the parental constructs.     

Transgenic white clover. Studies with the auxin-responsive promoter,GH3, in root gravitropism and lateral root development

We report an improved method for white clover (Trifolium repens) transformation usingAgrobacterium tumefaciens. High efficiencies of transgenic plant production were achieved using cotyledons of imbibed mature seed. Transgenic plants were recovered routinely from over 50% of treated cotyledons. Thebar gene and phosphinothricin selection was shown to be a more effective selection system thannptII (kanamycin selection) oraadA (spectinomycin selection). White clover was transformed with the soybean auxin responsive promoter, GH3, fused to the GUS gene (-glucuronidase) to study the involvement of auxin in root development. Analysis of 12 independent transgenic plants showed that the location and pattern of GUS expression was consistent but the levels of expression varied. The level of GH3:GUS expression in untreated plants was enhanced specifically by auxin-treatment but the pattern of expression was not altered. Expression of the GH3:GUS fusion was not enhanced by other phytohormones. A consistent GUS expression pattern was evident in untreated plants presumably in response to endogenous auxin or to differences in auxin sensitivity in various clover tissues. In untreated plants, the pattern of GH3:GUS expression was consistent with physiological responses which are regarded as being auxin-mediated. For the first time it is shown that localised spots of GH3:GUS activity occurred in root cortical tissue opposite the sites where lateral roots subsequently were initiated. Newly formed lateral roots grew towards and through these islands of GH3:GUS expression, implying the importance of auxin in controlling lateral root development. Similarly, it is demonstrated for the first time that gravistimulated roots developed a rapid (within 1 h) induction of GH3:GUS activity in tissues on the non-elongating side of the responding root and this induction occurred concurrently with root curvature. These transgenic plants could be useful tools in determining the physiological and biochemical changes that occur during auxin-mediated responses.     

Promoters from kin1 and cor6.6, two Arabidopsis thaliana low-temperature-and ABA-inducible genes,direct strong β-glucuronidase expression in guard cells,pollen and young developing seeds

The ability of most higher plants to withstand freezing can be enhanced by cold acclimation, although the freezing tolerance of plant tissues is also affected by their developmental stage. In addition, low temperature has pleiotropic effects on many plant developmental processes such as vernalization. The interaction between plant development and low temperature implies that some genes are regulated by both environmental factors and developmental cues. Although a number of cold-inducible genes from plants have been identified, information concerning their regulation during plant development is limited. In order to understand their developmental regulation and obtain possible clues as to function, the promoters of kin1 and cor6.6, two cold- and abscisic acid (ABA)-regulated genes from Arabidopsis thaliana, were fused to the -glucuronidase (GUS)-coding sequence and the resulting constructs were used to transform tobacco and A. thaliana. Transgenic plants with either the kin1 or cor6.6 promoter showed strong GUS expression in pollen, developing seeds, trichomes and, most interestingly, in guard cells. During pollen development, maximum GUS activity was found in mature pollen. In contrast, the maximum GUS activity during seed development was during early embryogenesis. These patterns of expression distinguish kin1 and cor6.6 from related lea genes which are strongly expressed during late embryogenesis. There was no major qualitative difference in patterns of GUS expression between kin1 and cor6.6 promoters and the results were similar for transgenic tobacco and Arabidopsis. Considering the results described, as well as those in an accompanying paper Wang et al., 1995, Plant Mol Biol 28: 605–617 (this issue), we suggest that osmotic potential might be a major factor in regulating the expression of kin1 and cor6.6 during several developmental processes. The implication of the results for possible function of the gene products is discussed.     

Cassettes for seed-specific expression tested in transformed embryogenic cultures of soybean

Soybean (Glycine max [L.] Merrill) lectin is a seed protein that accumulates in protein bodies of cotyledons during seed development. We have constructed two expression cassettes containing the 5′ and 3′ regions of the soybean lectin gene connected by aNot I restriction site. One vector also contains the 32 amino acid signal sequence. Using polymerase chain reaction (PCR), the coding region of the β-glucuronidase (uidA) gene was inserted into theNot I site of each vector. We tested the function of the expression cassettes in transformed embryogenic cultures of soybean. Development-specific GUS expression was observed in developing somatic embryos transformed with the chimeric lectin promoter-GUS constructs as determined by histochemical assays. Our data indicate that these cassettes could be used to drive expression of foreign genes to modify embryo-specific traits of soybean as protein quality or quantity in the seed.