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71.
Potato cells (cv. Norchip) were cultured from tuber parenchymal tissue and subcultured to dissociate and habituate the despecialized cells. After several subculturings on a minimal nutrient media, this line of cells demonstrated repeatable physical growth profiles for dry weight (DW), fresh weight (FW) and protein. Two enzymes of plant lipid metabolism were investigated, lipolytic acyl hydrolase (LAH) and lipoxygenase (LOX), which respectively liberate and peroxidize fatty acids from lipid in cellular membranes. LAH, measured as p-nitrophenyl palmitate hydrolase, was present in this line of cells in easily detectable amounts (317 units g-1 DW) albeit much lower than that found in mother tuber (9878 units g-1 DW). The presence of LAH in this line is significant because LAH isozymes are often described as storage proteins, yet activity per gram fresh weight in these unorganized cells is reasonably constant until culture growth exits the linear phase. However, LOX, the most active free fatty acid metabolizing enzyme in potato tubers (89,800 units g-1 DW), was not detectable in this line of callus or suspension cultured cells. The absence of LOX activity in this line of cells was verified by a number of assay approaches and was confirmed by activity staining of extracted enzymes separated in polyacrylamide gels. The absence of LOX in these cultured cells is especially important in determining the functions of this lipid peroxidation system and how it may be genetically regulated.Mention of company or trade name does not imply endorsement by the United States Department of Agriculture over others not named.A laboratory cooperatively operated by the Midwest Area, Agricultural Research Service, U.S. Department of Agriculture, The Minnesota Agricultural Experiment Station, the North Dakota Agrcultural Experiment Station, and the Red River Valley Potato Grower's Association. 相似文献
72.
P. Edward Purdue Michael J. Lumb Jennifer Allsop Christopher J. Danpure 《Human genetics》1991,87(4):394-396
Summary We report here the identification of a duplication within the first intron of the gene encoding human alanine:glyoxylate aminotransferase (AGT); this duplication is closely linked to two point mutations associated with peroxisome-to-mitochondrion mistargeting of AGT in primary hyperoxaluria type 1 (PH1) patients. Polymerase chain reaction amplification of regions of the AGT gene including the insertion site from individuals heterozygous for this duplication, produces allele-specific fragments of different sizes. We have taken advantage of this to identify a nonsense mutation within a non-expressed allele of a compound heterozygote PH1 patient with mitochondrial AGT. 相似文献
73.
Lisa G. Shaffer Colleen K. Jackson-Cook Joanne M. Meyer Judith A. Brown J. Edward Spence 《Human genetics》1991,86(4):375-382
Summary The largest class of de novo chromosomal rearrangements in Down syndrome are rea(21q21q). Classically, these rearrangements have been termed Robertsonian translocations, implying an attachment of two different chromosome 21 homologues. Additionally, a Robertsonian translocation between two chromosomes 21 cannot be distinguished from an isochromosome composed of genetically identical arms by cytogenetic analyses. Therefore, we have used molecular techniques to differentiate between true Robertsonian translocations and isochromosomes. Samples were obtained from 12 probands, ascertained for de novo rearrangements between homologous chromosomes 21 [11 rea(21q21q) and 1 rea (21;21)(q22;q22)], their parents (n = 24) and available siblings (n = 7). The parental origins of the de novo rearrangements were assigned using molecular and cytogenetic analyses. Although not statistically significant, there was a two-fold increase in the number of paternally derived de novo rearrangements (n = 8) as compared with maternally derived rearrangements (n = 4). To distinguish between rob(21q21q) and i(21q), we used restriction fragment length polymorphisms (RFLPs) spanning the length of chromosome 21. Using all informative and partially informative RFLPs, we used the method of maximum likelihood to assign the most likely rearrangement definition (i or rob) and parental origin in each family. The maximum likelihood estimates indicated that all rearrangements tested (n = 8) were isochromosomes. C-banding revealed two centromeres in three cases indicating that a U-type exchange occurred between sister chromatids in these rearrangements. Our results suggest that the majority of de novo rea(21q21q) are isochromosomes derived from a single parental chromosome 21. 相似文献
74.
Charles M. Lent David Zundel Edward Freedman James R. Groome 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1991,169(2):191-200
Summary Stridulation of grasshoppers is controlled by hemisegmental pattern generator subunits which probably are restricted to the metathoracic ganglion complex (TG3-complex). The coordination of left and right pattern generator subunits depends on commissures of the TG3-complex (Ronacher 1989). The coordination of the stridulatory movements was studied in Chorthippus dorsatus males with partial mediosagittal incisions in the TG3-complex.Animals bearing anterior incisions in the TG3-complex, by which all commissures of the metathoracic neuromere and the first abdominal neuromere were transected, were still able to produce bilaterally coordinated species-specific stridulatory movements. Commissures of the T3- and A1-neuromere, thus, are not necessary, and the A2-, A3-commissures are sufficient for this coordination (Figs. 3, 4).Animals with partial posterior incisions, extending until A1, had deficits in their stridulation pattern; the coordination between the hindlegs was impaired though not completely lost (Fig. 6). This is discussed in view of the structure of stridulation interneurons identified in a related grasshopper species (Omocestus viridulus).These results indicate an unexpected substantial contribution of the abdominal neuromeres A2 and A3 to the control of stridulatory movements. This constitutes an interesting parallel to the flight control system of locusts where interneurons located in the first 3 abdominal neuromeres also appear to contribute to the flight pattern generator (Robertson et al. 1982).Abbreviations
A1–A3
abdominal neuromeres 1–3
-
T3
metathoracic neuromere
-
TG3-complex
metathoracic ganglion complex including A1–A3 相似文献
75.
Stage-dependent processing and localization of a Plasmodium falciparum protein of 130,000 molecular weight 总被引:3,自引:0,他引:3
M Perkins 《Experimental parasitology》1988,65(1):61-68
A Plasmodium falciparum protein of 130,000 molecular weight (m.w.) has been identified, cloned in Escherichia coli, and completely sequenced (Kochan et al. 1986). The protein appeared to bind to soluble glycophorin, a host erythrocyte surface protein. In the present study, extracts of parasites from different intraerythrocytic stages were immunoblotted with antibodies, raised against a 30,000 m.w. fusion protein corresponding to the 3' end of the 130,000 m.w. protein. It was demonstrated that the protein is synthesized at the trophozoite stage, accumulates at the schizont stage, and is processed at the merozoite stage to a triplet of three polypeptides. The processed proteins are present in the culture supernatant at the time of merozoite burst from the red cell. Immunofluorescent staining of the parasite at different intracellular stages indicates that the protein is localized on the parasite at the trophozoite stage. At late trophozoite stage, it appears to be transported to the erythrocyte cytoplasm, where it is present in small vesicles or inclusions. In mature schizonts the protein accumulates around the plasma membrane of the erythrocyte. At the segmenter stage, just prior to merozoite release, it appears also to surround the intracellular merozoite, as well as the erythrocyte plasma membrane. The soluble 130,000 m.w. protein binds to erythrocytes but binds significantly greater to erythrocyte membranes, suggesting it binds to an internal domain of glycophorin rather than the domain exposed on the surface. The 130,000 m.w. protein is present in 11 different geographic isolates of P. falciparum from diverse geographic origins. Its molecular weight is similar in all isolates. 相似文献
76.
Mechanisms of Mutagenesis by a Bulky DNA Lesion at the Guanine N7 Position 总被引:4,自引:1,他引:3
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K. Sambamurti J. Callahan X. Luo C. P. Perkins J. S. Jacobsen M. Z. Humayun 《Genetics》1988,120(4):863-873
The RpII215 locus encodes the large subunit of RNA polymerase II (polII). Three of 22 RpII215 alleles cause a synergistic enhancement of the mutant phenotype elicited by mutations in the Ultrabithorax (Ubx) locus. We have recovered and analyzed three new mutations that suppress this enhancement. All three mutations map to the RpII215 locus. In addition to suppressing the Ubx enhancement of other RpII215 alleles, two of the new mutations, JH1 and WJK2, themselves enhance Ubx. RpII215 alleles can be placed into three classes based on their ability to enhance Ubx. Class I alleles, including Ubl, C4, C11, JH1, and WJK2, enhance Ubx when heterozygous with class II alleles, which include wild-type RpII215. Class III alleles, which include amorphic alleles, do not enhance Ubx. The third new mutation, WJK1, is a conditional amorphic allele, which behaves like a class III allele at 29 degrees but like a class II allele at 19 degrees. Another mutant phenotype is caused by certain RpII215 alleles, including all class I alleles. This phenotype is a synergistic enhancement of a mutant phenotype elicited by mutations at the Delta (Dl) locus. Unlike the enhancement of Ubx, the enhancement of Dl is not dependent upon antagonistic interactions between different classes of RpII215 alleles. 相似文献
77.
Realization that forest decline (Waldsterben) has become an ecological crisis throughout the developed world has resulted
in massive research efforts to determine the causes of declines. It is now recognized that no single causal factor is responsible,
but that there are a variety of anthropogenic causal factor complexes interacting with natural events and processes that,
together, induce stresses in forests that culminate in declines of individual plants and of ecosystems.
It is the thesis of this article that forest declines involve all biotic and abiotic facets and parameters of forested ecosystems
and that the declines are themselves new causal factor complexes that continue to affect the stability of forested ecosystems
independently of the initial causal factor complexes. Lacking direct field or laboratory studies on these cascades of causes
and effects, this article attempts to utilize the growing body of information on plant physiological ecology to provide a
heuristic framework for evaluating long-term forest declines. 相似文献
78.
79.
Use of Neurospora spore killer strains to obtain centromere linkage data without dissecting asci 总被引:1,自引:0,他引:1
D D Perkins N B Raju V C Pollard J L Campbell A M Richman 《Canadian journal of genetics and cytology》1986,28(6):971-981
Use of a centromere-linked Spore killer gene Sk reduces manyfold the labor involved in obtaining tetrad data that would otherwise require ordered dissection of intact linear eight-spored asci. Heterozygous crosses are made for Spore killer (SkK X SkS) and for markers to be tested. In such crosses only SkK ascospores survive. The four viable (SkK) and four aborted (SkS) ascospores of each ascus are ejected from the perithecium as a physically disordered group. The four surviving SkK ascospores of individual asci are germinated and scored. SkK segregates from SkS at the first meiotic division. If both marker alleles are represented in the surviving products, they must therefore have segregated from one another at the second division. Four-spore (Fsp) genes have been used to eliminate one postmeiotic nuclear division, so that only two ascospores per ascus need to be scored. The Spore killer method has been useful for mapping closely linked genes in centromere regions, for identifying genes that are far out on chromosome arms, for obtaining information on meiotic crossing-over, and for comparing linkages in different species. 相似文献
80.
Chromosome distribution of intracisternal A-particle sequences in the Syrian hamster and mouse 总被引:5,自引:0,他引:5
Edward L. Kuff Joseph E. Fewell Kira K. Lueders Joseph A. DiPaolo Suzanne C. Amsbaugh Nicholas C. Popescu 《Chromosoma》1986,93(3):213-219
Metaphase chromosomes of Syrian hamster and BALB/c mice were hybridized in situ with radiolabeled probes derived from cloned intracisternal A-particle (IAP) genes of the corresponding species. The DNAs of these species are known to contain about 900 and 1,000 copies, respectively, of the retrovirus-like IAP sequence elements per haploid genome. Multiple IAP sequences were found on all chromosomes of both hamster and mouse. In the hamster, more than half of the IAP sequences were located in regions of non-centromeric constitutive heterochromatin, at an average concentration per unit chromosome length 5 times greater than in the euchromatic regions. The other dispersed sequences showed marked local variations in concentration along the chromosome lengths; both discrete foci and large grain clusters were observed as well as regions apparently lacking IAP sequences. Within the resolution of the techniques, IAP sequences appeared to be more evenly distributed over the mouse chromosomes; however, some prominent variations in concentration were seen. The number of potentially active IAP genes in the Syrian hamster, and by extension in the mouse, may be restricted by the preferential location of IAP sequences in genetically inert regions of the genome. 相似文献