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171.
Rogelio Maldonado-Rodriguez Paul H. Driggers Kenneth L. Beattie 《Mutation research》1991,251(2):201-216
A system to characterize mutations arising from in vitro nucleotide misincorporation, which avoids the effects of in vivo mismatch repair on recovery of mutants, was constructed and evaluated. The lacI gene of Escherichia coli was inserted into phage M13 and the M13-lacI recombinant was introduced into a strain of E. coli lacking a resident lacI gene. In this system the function of the M13-bearing lacI gene can be detected by plaque color. Mutants in the 5'-region of the lacI gene (encoding operator-binding domain) are seen as blue plaques when the host strain is grown in the presence of chromogenic substrate, X-gal, in the absence of inducer. The use of uracil-containing single stranded DNA from M13-lacI as template for DNA synthesis avoids the contribution of mismatch repair (in transfection recipients) on the recovery of mutants. To demonstrate the usefulness of the M13-lacI system we produced nucleotide misincorporations by in vitro DNA synthesis in the N-terminal region of the lacI template in the presence of only 3 deoxynucleoside triphosphates (dNTPs). Such mutagenic reactions were conducted in the absence of dATP with 4 different primers and in the absence of dGTP with 2 primers. The type of mutants produced by these reactions were identified through sequencing of DNA from progeny phage after screening for i- (blue plaque) phenotype. Mutations recovered in this system consisted of single and multiple base substitutions in the region of the template near the 3'-terminus of the primer. Nearly all of the mutants induced by '-A' conditions were T----C base substitutions, and those induced by '-G' conditions were C----T transitions. In general, the results were consistent with the spectrum of spontaneous mutants produced in strains deficient in mismatch repair, although some differences were noted. Several new base substitutions within the lacI gene (producing i- phenotype and unobserved by others) were isolated by the procedures described in this paper. 相似文献
172.
Mechanisms of action of abscisic acid at the cellular level 总被引:11,自引:2,他引:9
173.
174.
175.
B. Sinha R. M. Singh U. P. Singh 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1991,82(4):399-404
Summary Studies on the genetics of leaf blight caused byAlternaria triticina using generation mean analysis revealed that additive components played a major role, but that dominance components also contributed significantly in controlling the variability for leaf blight resistance in wheat crosses. Furthermore, the additive x additive type of epistasis was predominant in the first three crosses, whereas in the fourth cross additive x dominance (j) and dominance x dominance (1) components of epistasis were most significant. Because of this it may be desirable to follow a simple recurrent selection scheme for higher tolerance, to isolate resistant plants from the segregating populations derived from crosses of parents of diverse origin following the pedigree method of breeding. CPAN-1887 was very tolerant to leaf blight in the present study and should be utilized in hybridization programs to develop leaf-blight-resistant varieties. 相似文献
176.
177.
K. Toriyama J. C. Stein M. E. Nasrallah J. B. Nasrallah 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1991,81(6):769-776
Summary An SLG gene derived from the S-locus and encoding and S-locus-specific glycoprotein of Brassica campestris L. was introduced via Agrobacterium-mediated transformation into B. oleracea L. A self-incompatible hybrid and another with partial self-compatibility were used as recipients. The transgenic plants were altered in their pollen-stigma interaction and were fully compatible upon self-pollination. Reciprocal crosses between the transgenic plants and untransformed control plants indicated that the stigma reaction was changed in one recipient strain while the pollen reaction was altered in the other. Due to interspecific incompatibility, we could not demonstrate whether or not the introduced SLG gene confers a new allelic specificity in the transgenic plants. Our results show that the introduced SLG gene perturbs the self-incompatibility phenotype of stigma and pollen. 相似文献
178.
Paracoccus denitrificans is able to grow on the C1 compounds methanol and methylamine. These compounds are oxidized to formaldehyde which is subsequently oxidized via formate to carbon dioxide. Biomass is produced by carbon dioxide fixation via the ribulose biphosphate pathway. The first oxidation reaction is catalyzed by the enzymes methanol dehydrogenase and methylamine dehydrogenase, respectively. Both enzymes contain two different subunits in an 22 configuration. The genes encoding the subunits of methanol dehydrogenase (moxF andmoxI) have been isolated and sequenced. They are located in one operon together with two other genes (moxJ andmoxG) in the gene ordermoxFJGI. The function of themoxJ gene product is not yet known.MoxG codes for a cytochromec
551i
, which functions as the electron acceptor of methanol dehydrogenase. Both methanol dehydrogenase and methylamine dehydrogenase contain PQQ as a cofactor. These so-called quinoproteins are able to catalyze redox reactions by one-electron steps. The reaction mechanism of this oxidation will be described. Electrons from the oxidation reaction are donated to the electron transport chain at the level of cytochromec. P. denitrificans is able to synthesize at least 10 differentc-type cytochromes. Five could be detected in the periplasm and five have been found in the cytoplasmic membrane. The membrane-bound cytochromec
1 and cytochromec
552 and the periplasmic-located cytochromec
550 are present under all tested growth conditions. The cytochromesc
551i
andc
553i
, present in the periplasm, are only induced in cells grown on methanol, methylamine, or choline. The otherc-type cytochromes are mainly detected either under oxygen limited conditions or under anaerobic conditions with nitrate as electron acceptor or under both conditions. An overview including the induction pattern of allP. denitrificans c-type cytochromes will be given. The genes encoding cytochromec
1, cytochromec
550, cytochromec
551i
, and cytochromec
553i
have been isolated and sequenced. By using site-directed mutagenesis these genes were mutated in the genome. The mutants thus obtained were used to study electron transport during growth on C1 compounds. This electron transport has also been studied by determining electron transfer rates inin vitro experiments. The exact pathways, however, are not yet fully understood. Electrons from methanol dehydrogenase are donated to cytochromec
551i
. Further electron transport is either via cytochromec
550 or cytochromec
553i
to cytochromeaa
3. However, direct electron transport from cytochromec
551i
to the terminal oxidase might be possible as well. Electrons from methylamine dehydrogenase are donated to amicyanin and then via cytochromec
550 to cytochromeaa
3, but other routes are used also.P. denitrificans is studied by several groups by using a genetic approach. Several genes have already been cloned and sequenced and a lot of mutants have been isolated. The development of a host/vector system and several techniques for mutation induction that are used inP. denitrificans genetics will be described. 相似文献
179.
180.
Identification of a new gene in an operon for cellulose biosynthesis in Acetobacter xylinum 总被引:16,自引:0,他引:16
DNA sequencing of the region downstream of the cellulose synthase catalytic subunit gene of Acetobacter xylinum led to the identification of an open reading frame coding for a polypeptide of 86 kDa. The deduced amino acid sequence of this polypeptide matches from position 27 to 40 with the N-terminal amino acid sequence determined for a 93 kDa polypeptide that copurifies with the cellulose synthase catalytic subunit during purification of cellulose synthase. The cellulose synthase catalytic subunit gene and the gene encoding the 93 kDa polypeptide, along with other genes probably, are organized as an operon for cellulose biosynthesis in which the first gene is the catalytic subunit gene and the second gene codes for the 93 kDa polypeptide. The function of the 93 kDa polypeptide is not clear at present, however it appears to be tightly associated with the cellulose synthase catalytic subunit. Sequence analysis of the polypeptide shows that it is a membrane protein with a signal sequence at the N-terminal end and a transmembrane helix in the C-terminal region for anchoring it into the membrane. 相似文献