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1.
In Drosophila melanogaster two alleles at the Third chromosome resistance locus (Tcr; 3-39-6) were isolated in a screen of EMS mutagenized third chromosomes for dominant resistance to dietary alpha-methyl dopa, alpha-MD, a structural analogue of DOPA. Both alleles of Tcr are recessive lethals exhibiting partial complementation. Almost half (48.3%) of the Tcr40/Tcr45 heterozygotes die as embryos but some survive past adult eclosion. Both the embryonic lethal phenotype and the adult phenotype suggest that Tcr is involved in cuticle synthesis. Tcr mutants suppress the lethality of partially complementing alleles at the alpha-MD hypersensitive locus, l(2)amd. The viability of Tcr40/Tcr45, however, is not increased by the presence of a l(2)amd allele. The possibility that the Tcr and l(2)amd mutations reveal a catecholamine metabolic pathway involved in cuticle structure is discussed.  相似文献   

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A kinetic analysis of Drosophila melanogaster dopa decarboxylase   总被引:1,自引:0,他引:1  
The kinetic mechanism of dopa decarboxylase (3,4-dihydroxy-L-phenylalanine carboxy-lyase, EC 4.1.1.28) was investigated in Drosophila melanogaster. Based on initial velocity and product inhibition studies, an ordered reaction is proposed for dopa decarboxylase. This kinetic mechanism is interpreted in the context of measured enzyme activities and the catecholamine pools in Drosophila. The 1(2)amd gene is immediately adjacent to the gene coding for dopa decarboxylase (Ddc) and determines hypersensitivity to alpha-methyldopa in Drosophila. Dopa decarboxylase does not decarboxylate alpha-methyldopa and hence does not generate a toxic product capable of inhibiting 1(2)amd gene function. We propose that the 1(2)amd gene is involved with an unknown catecholamine pathway involving dopa but not dopamine.  相似文献   

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An existing cpxA(Ts) mutant was resistant to amikacin at levels that inhibited completely the growth of a cpxA+ and a cpxA deletion strain and failed to grow as efficiently on exogenous proline. These properties are similar to those of mutants altered in a gene mapped to the cpxA locus and variously designated as ecfB, ssd, and eup. The amikacin resistance phenotype of the cpxA mutant was inseparable by recombination from the cpxA mutant phenotype (inability to grow at 41 degrees C without exogenous isoleucine and valine) and was recessive to the cpxA+ allele of a recombinant plasmid. Using methods that ensured independent mutations in the cpxA region of the chromosome, we isolated six new amikacin-resistant mutants following nitrosoguanidine mutagenesis. Three-factor crosses mapped the mutations to the cpxA locus. When transferred by P1 transduction to a cpxB11 Hfr strain, each of the mutations conferred the Tra- and Ilv- phenotypes characteristic of earlier cpxA mutants. Two of the new mutations led to a significantly impaired ability to utilize exogenous proline, and four led to partial resistance to colicin A. Two of the new cpxA alleles were recessive to the cpxA+ allele, and four were dominant, albeit to different degrees. On the basis of these data, we argue that cpxA, ecfB, eup, and ssd are all the same gene. We discuss the cellular function of the cpxA gene product in that light.  相似文献   

6.
We have analyzed two variants of Drosophila melanogaster (RS and RE) which lead to the dual phenotype of elevated DDC activity and increased resistance to dietary alpha-methyldopa relative to Oregon-R controls. Both phenotypes show tight genetic linkage to the dopa decarboxylase, Ddc, and l(2)amd genes (i.e., less than 0.05 cM distant). We find that low (Oregon-R), medium (RS) and high (RE and Canton-S) levels of DDC activity seen at both pupariation and eclosion in these strains are completely accounted for by differences in accumulation of DDC protein as measured by immunoprecipitation. Genetic reconstruction experiments in which Ddc+ and amd+ gene doses are varied show that increasing DDC activity does not lead to a measurable increase in resistance to dietary alpha-methyldopa. This suggests that the increased resistance to dietary alpha-methyldopa is not the result of increased DDC activity but, rather, results from increased l(2)amd+ activity. Both cytogenetic and molecular analyses indicate that these overproduction variants are not the result of small duplications of the Ddc and amd genes, nor are they associated with small (greater than or equal to 100 bp) insertions or deletions. Measurements of DDC activity in wild-type strains of Drosophila reveal a unimodal distribution of activity levels with the Canton-S and RE strains at the high end of the scale, the Oregon-R control at the low end and RS near the modal value. We conclude that accumulated changes in a genetic element (or elements) in close proximity to the Ddc+ and amd+ genes lead to the coordinated changes in the expression of the Ddc and amd genes in these strains.  相似文献   

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Earlier, it has been shown that genes responsible for differences in longevity between wild-type Drosophila melanogaster lines 2b and Oregon are localized in region 7A6-B2, 36E4-37B9, 37B9-D2, and 64C-65C. Quantitative complementation tests were conducted between the gene mutations localized in these regions and involved in catecholamine biosynthesis (iav (inactive), Catsup (Catecholamines up), amd (alpha methyl dopa resistant), Dox-A2 (Diphenol oxidase A2), pie (pale)) and neuron development control (Fas3 (Fascyclin 3), tup (tail up), Lim3), on the one hand, and two different normal alleles of these genes in lines 2b and Oregon, on the other. Complementation was found for genes iav, Fas3, amd and ple. The remaining genes (Catsup, Dox-A2, tup, and Lim3) are candidate genes for controlling differences in longevity between lines 2b and Oregon.  相似文献   

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We developed a marker rescue system for study of competence development and genetic transformation in Streptococcus mutans. The system involved the recombinational rescue of a tetracycline resistance (Tcr) determinant by a homologous, inactive locus (Tcs because of a small deletion). Streptococcal cells harboring this in vitro-prepared Tcs construct (pVA1208) were restored to Tcr when plasmid (pVA981) DNA was used as donor material. pVA981 contained the intact streptococcal Tcr locus and was unable to autonomously replicate in streptococci. Marker rescue with this system followed first-order kinetics and occurred at a frequency 8- or 160-fold higher than did transformation with homologous chromosomal or plasmid DNA, respectively. By using the rescue system, we were able to confirm that competence of S. mutans appeared to be inducible. This was indicated by a sequential increase and then decrease in Tcr transformation frequencies during growth in complex medium. Also, donor DNA binding was not sequence specific, since the recovery of Tcr transformants was reduced by increasing the concentrations of heterologous DNA. We investigated the fate of donor DNA and the kinetics of plasmid establishment in the transformation of S. mutans with plasmid DNA. Monomeric plasmid molecules transformed S. mutans as a second-order process, whereas multimeric plasmid DNA and chromosomal markers were recovered as a first-order process. Approximately 50% of the initially bound donor plasmid DNA was found to remain in a trichloroacetic acid-insoluble form. Our results suggested that molecular cloning in S. mutans would be conducted most efficiently by using helper plasmid systems or shuttle vectors and that gene transfer by transformation of S. mutans occurred in a manner similar to that observed in Streptococcus sanguis.  相似文献   

11.
Summary Dopa decarboxylase (EC 4.1.1.26) has been purified to near homogeneity from mature larvae of Drosophila melanogaster. The enzyme has a molecular weight of 113,000 measured by sucrose gradient sedimentation and 102,000 measured by variable porosity acrylamide gel electrophoresis. Electrophoresis under denaturing conditions revealed the enzyme consists of two subunits of molecular weight 54,000. The affinity of the enzyme for L-dopa is 30-fold greater than for L-tyrosine. Activity is strongly inhibited by heavy metal ions and the sulfhydryl reagent N-ethylmaleimide. N-acetyl dopamine acts as a competitive inhibitor of the enzyme.Antibodies were elicited against the purified enzyme and measurements of the amount of cross-reacting material (CRM) in two groups of mutants were made. The first group comprised the recessive lethal mutants l(2)amd. Heterozygous mutant stocks are hypersensitive to -methyl dopa, an inhibitor of dopa decarboxylase. These stocks were found to have nearly normal amounts of CRM and enzyme activity.A second group of recessive lethal mutants, characterized by lower levels of dopa decarboxylase, was also analysed. These mutants, designated l(2) Ddc, as heterozygotes exhibited CRM levels between 25 and 75% of normal. Although they are alleles at a single locus, they were classifiable into three distinct groups whose properties readily could be ascribed to a homodimeric structure of the enzyme. This structure would also account for the pattern of intracistronic complementation exhibited by the mutants. Finally, the severity of the mutant defects, as judged by our measurements of CRM and activity, closely parallels that deduced from their complementation pattern. We conclude that these mutations are lesions in the structural gene for dopa decarboxylase.  相似文献   

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普通菜豆抗炭疽病基因鉴定与分子标记   总被引:3,自引:1,他引:2  
菜豆炭疽病是世界菜豆生产中的主要病害之一,使幕豆产量和品质受到严重影响,对抗炭疽病基因的研究可以为培育抗炭疽病品种奠定基础。幕豆炭疽病病菌生理分化比较复杂,由于菜豆品种的抗病性和地域不同,菜豆炭疽菌的致病性分化不同。10个已知抗炭疽病基因中,9个基因(Co-1、Co-2、Co-3/Co-9、Co-4^2、Co-5、Co-6、Co-7、Co-10)已被确认为独立显性基因,其中Co-3/Co-9是等位基因;Co-1、Co-4和Co-9存在等位基因,co-8为隐性基因。除Co-5、Co-7和co-8三个基因还没有被定位外,其他基因被定位在不同的连锁群上。  相似文献   

13.
邢万金  莫日根 《遗传》2015,37(1):98-108
在孟德尔遗传学中显性与隐性描述一对等位基因在杂合体时的功能关系,把在表型上看出效果的等位基因称为显性等位基因,看不出效果的称为隐性等位基因,并由此提出分离定律和自由组合定律,开创了遗传学这一学科。这样的描述最初是逻辑推理的需要,但对于研究生命结构与功能关系的实验性科学而言,必须在细胞与大分子实体上找到显性与隐性的生物学基础。在遗传学教学中,如何用现代分子遗传学知识诠释经典的显性和隐性概念是教师经常面临的释疑问题。笔者认为要理解等位基因显性和隐性的实质,必须了解等位基因的差异及其产物RNA或蛋白质在细胞中的具体作用。不同等位基因的蛋白质或者RNA产物在细胞内的不同时间、不同地点所起的作用不同,赋予了在细胞、组织或器官水平上能够区分观测到的表型差异,即显性或者隐性。文章根据基因结构的变异、基因调控的差异、基因产物的类型与作用等在细胞与分子水平上分别举例探讨了等位基因显性与隐性的分子实质及其变化,以期在遗传学教学过程中使学生对基因的变异和功能有更全面、更具体的理解。  相似文献   

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Albino phenotypes are documented in a variety of species including the domestic cat. As albino phenotypes in other species are associated with tyrosinase (TYR) mutations, TYR was proposed as a candidate gene for albinism in cats. An Oriental and Colourpoint Shorthair cat pedigree segregating for albinism was analysed for association with TYR by linkage and sequence analyses. Microsatellite FCA931, which is closely linked to TYR and TYR sequence variants were tested for segregation with the albinism phenotype. Sequence analysis of genomic DNA from wild-type and albino cats identified a cytosine deletion in TYR at position 975 in exon 2, which causes a frame shift resulting in a premature stop codon nine residues downstream from the mutation. The deletion mutation in TYR and an allele of FCA931 segregated concordantly with the albino phenotype. Taken together, our results suggest that the TYR gene corresponds to the colour locus in cats and its alleles, from dominant to recessive, are as follows: C (full colour) > c(b) (burmese) > or = c(s) (siamese) > c (albino).  相似文献   

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Within the group of maternal effect genes necessary for the establishment of the dorsal-ventral pattern of the Drosophila embryo, the Toll gene mutates to give a singular variety of embryonic phenotypes. Lack of function alleles produce dorsalized embryos as a recessive maternal effect. Dominant gain of function alleles result in ventralized embryos. Other recessive alleles cause partial dorsalization or lateralization of the embryonic pattern. Gene dosage studies indicate that the dominant ventralized phenotype results from an altered activity of the Toll product. Complementation studies show specific trans interactions between copies of the Toll product. Double mutant phenotypes suggest that the products of several other dorsal-group genes regulate the activity of Toll.  相似文献   

16.
Abstract Mutations at three loci in Saccharomyces cerevisiae have been shown to confer increased sensitivity to the antimalarial and antiarrhythmic alkaloid, quinidine. Two of these groups are composed of strains carrying recessive mutations, the other group contains two dominant alleles. The largest complementation group has been designated QDS1 , for increased quinidine-sensitivity. Exposure of qds1 cells to lethal concentrations of quinidine results in a novel small-budded terminal morphology in about 70% of the cells in the culture. Strains which carry qds1 alleles share other pleiotropic phenotypes. qds1 mutants are incapable of mating as α but not a cells, due to a defect in α-factor production. Homozygous diploid qds1 strains cannot sporulate. Genetic evidence indicates that QDS1 is allelic to KEX2 , a precursor processing protease. Loss of QDS1 / KEX2 function results in quinidine sensitivity.  相似文献   

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The spontaneously hypertensive rat (SHR) is a model of human insulin resistance syndrome. Quantitative trait loci for cellular defects in glucose and fatty acid metabolism have been mapped to an overlapping region of rat chromosome (RNO) RNO4 in SHR of the National Institute of Health colony, where a deletion in the Cd36 gene has been implicated as the causative mutation of insulin resistance. The present study has examined the potential presence of RNO4 linkage to a series of metabolic phenotypes in F(2) progeny derived from SHR of a Japanese colony (SHR/Izm) without the Cd36 mutation. Our data demonstrate that 'major' insulin resistance gene(s) are unlikely to exist on RNO4 in SHR/Izm and in vitro phenotypes measured in isolated adipocytes do not cosegregate in the F(2) population studied. Thus, it seems to be difficult to explain the underlying genetic mechanisms of insulin resistance by a single major gene on RNO4.  相似文献   

18.
J. E. Masson  P. J. King    J. Paszkowski 《Genetics》1997,146(1):401-407
A simple screening method was developed for the isolation of Arabidopsis thaliana mutants hypersensitive to X-ray irradiation. The root meristem was used as the target for irradiation with sublethal doses of X rays, while protection of the shoot meristem by a lead cover allowed the rescue of hypersensitive individuals. We isolated nine independent X-ray-hypersensitive mutants from 7000 M2 seedlings. Analysis of three chosen mutants (xrs4, xrs9 and xrs11) showed that alterations in single recessive alleles are responsible for their phenotypes. The mutations are not allelic but linked and map to chromosome 4, suggesting mutations in novel genes as compared to previously mapped mutant alleles. Importantly, hypersensitivity to X rays was found to correlate with hypersensitivity to the DNA-alkylating agent mitomycin C, which provokes interstrand crosslinks, and/or to methyl methanesulfonate, which is known as a radiomimetic chemical. These novel phenotypes suggest that the mutants described here are altered in the repair of DNA damage, most probably by recombinational repair.  相似文献   

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Parkinson disease (PD) is a common neurodegenerative condition associated with degeneration of dopaminergic neurons in the zona compacta of the substantia nigra. There is increasing evidence that genetic factors play a role in the etiology of PD, although genetic heterogeneity is likely. An autosomal dominant syndrome with many similarities to sporadic PD has been mapped to 4q21-22 in a large Italian pedigree and has been found to be due to mutation of the alpha-synuclein gene. However, this gene appears to account for only a minority of PD, and a susceptibility locus for autosomal dominant parkinsonism has recently been mapped, on 2p13. Autosomal recessive juvenile parkinsonism (JP), which shows marked clinical similarity to PD, maps to 6q25.2-q27. We found linkage to this region in a group of 15 families from four distinct ethnic backgrounds. A full genomic screen excluded other candidate regions. We have constructed a detailed genetic map of the linked region and have mapped the position of the manganese superoxide dismutase gene (SOD2). Recombination events restricted the JP locus to a 6.9-cM region and excluded SOD2. The apparent homozygosity for null alleles at D6S955 in one family suggested a deletion and finer localization of the JP locus.  相似文献   

20.
Recessive allelic variations were investigated at 3 microsatellite (SSR) sites within theO2 gene by using 14 inbredo2 lines and a wild-type line in maize. Among the 15 lines, allelic variations were observed at umc1066, phi057, and phi112 sites. Two alleles were found at the umc1066 site—a recessive allele with 2 perfect GCCAGA repeats and a dominant allele with 3 perfect repeats. Three alleles were found at the phi057 site—2 recessive alleles with 3 and 5 perfect GCC repeats, respectively, and another with 4 perfect repeats consistent with a dominant allele. At least 4 alleles exist at the phi112 site—among which 1 recessive allele has a 1-bp deletion, another has a 15-bp deletion, and other has no PCR products compared to the dominant allele; all the alleles have unchanged AG repeats. The phi057 site in exon 6 was identified to be a hypervariable region in the coding sequence of the02 gene, in addition to the 2 hypervariable regions in exon 1 previously reported. The primary mechanisms underlying the variations in repeat numbers and regions flanking the SSR within theO2 gene appear to be unequal crossing over and replication slippage. Furthermore, base substitution of SSR motif can create heteroalleles and modify the repeat number of SSR. The lysine content of kernel in theO2 ando2 lines correlates to a considerable extent with nucleotide variations at the umc1066, phi057, and phi112 sites. Our study suggests that it is best to use the 3 markers together in molecular marker-assisted selection for high-lysine maize materials.  相似文献   

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