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Regional mapping panel for human chromosome 17: Application to neurofibromatosis type 1 总被引:34,自引:0,他引:34
A somatic cell hybrid mapping panel was constructed to localize cloned DNA sequences to any of 15 potentially different regions of human chromosome 17. Relatively high-resolution mapping is possible for 50% of the chromosome length in which 12 breakpoints are distributed over approximately 45 megabases, with an average spacing estimated at 1 breakpoint every 2-7 megabases. This high-resolution capability includes the pericentromeric region of 17 to which von Recklinghausen neurofibromatosis (NF1) has recently been mapped. Using 20 cloned genes and anonymous probes, we have tested the expected order and location of panel breakpoints and confirmed, refined, or corrected the regional assignment of several cloned genes and anonymous probes. Four markers with varying degrees of linkage to NF1 have been physically localized and ordered by the panel: the loosely linked markers myosin heavy chain 2 (25 cM) to p12----13.105 and nerve growth factor receptor (14 cM) to q21.1----q23; the more closely linked pABL10-41 (D17S71, 5 cM) to p11.2; and the tightly linked pHHH202 (D17S33) to q11.2-q12. Thus, physical mapping of linked markers confirms a pericentromeric location of NF1 and, along with other data, suggests the most likely localization is proximal 17q. 相似文献
294.
Beta-adrenergic receptor-coupled adenylate cyclase is regulated by both amplification and desensitization processes. Desensitization of adenylate cyclase is divided into two major categories. Homologous desensitization is initiated by phosphorylation of the receptors by a beta-adrenergic receptor kinase. This reaction serves to functionally uncouple the receptors and trigger their sequestration away from the cell surface. These sequestered receptors can rapidly recycle to the cell surface or, with time, become down regulated, being destroyed within the cell. Dephosphorylation of the receptors is accomplished in the sequestered compartment of the cell, which may functionally regenerate the receptors and allow their return to the cell surface. In heterologous desensitization, receptor function is also regulated by phosphorylation, but in the absence of receptor sequestration or down regulation. In this case, phosphorylation serves only to functionally uncouple the receptors, that is, to impair their interactions with the guanine nucleotide regulatory protein Ns. Several protein kinases are capable of promoting this phosphorylation, including the cAMP-dependent kinase and protein kinase C. In addition to the receptor phosphorylation, heterologous desensitization is associated with modifications at the level of the nucleotide regulatory protein Ns and perhaps Ni. Adenylate cyclase systems are also subject to amplification that involves a protein kinase C-mediated phosphorylation of the catalytic unit of the enzyme. Phosphorylation of the catalytic unit enhances its catalytic activity and results in amplified stimulation by the regulatory protein Ns. Other receptor/effector systems exhibit qualitatively similar regulatory phenomena, suggesting that covalent modification (phosphorylation) may represent a general mechanism for regulating receptor function. 相似文献
295.
Expression of a Thermomonospora fusca Cellulase Gene in Streptomyces lividans and Bacillus subtilis 总被引:6,自引:4,他引:2 下载免费PDF全文
A cellulase gene from Thermomonospora fusca coding for endocellulase E5 was introduced into Streptomyces lividans by using shuttle plasmids that can replicate in either S. lividans or Escherichia coli. Plasmid DNA isolated from E. coli was used to transform S. lividans, selecting for thiostrepton resistance. The transformants expressed and excreted the endocellulase, but the ability to produce the endocellulase was unstable. This instability was shown to result from deletion of the endocellulase gene from the plasmid. Plasmid DNA prepared from a culture in which plasmid modification had occurred was used to transform E. coli, selecting for Amp+ cells, and all of the transformants were cellulase positive, showing that pBR322 and T. fusca DNA were deleted together. When a plasmid was constructed containing only T. fusca DNA in plasmid pIJ702, the transformants were more stable, and the level of endocellulase activity produced in the culture supernatant after growth on 0.2% glucose was close to the level produced by T. fusca cultures grown on 0.2% cellulose. About 50% of the total protein in the culture supernatant of the S. lividans transformant was endocellulase E5. The enzyme produced by the S. lividans transformant was identical to pure T. fusca E5 in its electrophoretic mobility and was completely inhibited by antiserum to E5. Shuttle plasmids containing the E5 gene that could replicate in Bacillus subtilis and E. coli were also constructed and used to transform B. subtilis. Again there was extensive deletion of the plasmid DNA during transformation and growth in B. subtilis. There was no evidence of E5 activity, even in those B. subtilis transformants that retained the E5 gene. 相似文献
296.
In Thermomonospora fusca YX, endocellulase synthesis varies over a 100-fold range depending on the carbon source used. This study shows that the variation is caused by two regulatory mechanisms: an induction mechanism that increases the rate of endocellulase synthesis about 20-fold and a growth rate-dependent repression mechanism that changes the rate of synthesis over a 6-fold range in both induced and noninduced cells. In T. fusca, endocellulase synthesis can be induced by cellulose, cellobiose, or cellodextrin. Cellulase is involved in inducer generation from cellulose. Growth rate-dependent repression can be reversed by limiting cultures for carbon, nitrogen, or, to a lesser extent, phosphorus. Further evidence for two separate regulatory mechanisms is provided by the isolation of mutants (CC-1 and CC-2) whose endocellulases are synthesized constitutively but are still sensitive to growth rate-dependent repression. These conclusions about total endocellulase synthesis were extended to the individual endocellulases by showing that three T. fusca endocellulases are coordinately regulated. 相似文献
297.
Carbohydrate components (simple sugars and polysaccharides) of cell walls of pearl millet (Pennisetum americanum L., cv. Gahi) were studied as potential substrates for the root-associated diazotroph Azospirillum brasiliense Sp. 7. Simple sugars were utilized, but no evidence was obtained to support the suggestion that the polysaccharide components tested might serve as substrates for growth following hydrolysis by the associated azospirilla. 相似文献
298.
299.
Regulatory properties of brain glutamate decarboxylase 总被引:13,自引:0,他引:13
David L. Martin 《Cellular and molecular neurobiology》1987,7(3):237-253
1. Glutamate decarboxylase is a focal point for controlling gamma-aminobutyric acid (GABA) synthesis in brain. Several factors that appear to be important in the regulation of GABA synthesis have been identified by relating studies of purified glutamate decarboxylase to conditions in vivo. 2. The interaction of glutamate decarboxylase with its cofactor, pyridoxal 5'-phosphate, is a regulated process and appears to be one of the major means of controlling enzyme activity. The enzyme is present in brain predominantly as apoenzyme (inactive enzyme without bound cofactor). Studies with purified enzyme indicate that the relative amounts of apo- and holoenzyme are determined by the balance in a cycle that continuously interconverts the two. 3. The cycle that interconverts apo- and holoenzyme is part of the normal catalytic mechanism of the enzyme and is strongly affected by several probable regulatory compounds including pyridoxal 5'-phosphate, ATP, inorganic phosphate, and the amino acids glutamate, GABA, and aspartate. ATP and the amino acids promote apoenzyme formation and pyridoxal 5'-phosphate and inorganic phosphate promote holoenzyme formation. 4. Numerous studies indicate that brain contains multiple molecular forms of glutamate decarboxylase. Multiple forms that differ markedly in kinetic properties including their interactions with the cofactor have been isolated and characterized. The kinetic differences among the forms suggest that they play a significant role in the regulation of GABA synthesis. 相似文献
300.
A reagent (I, N4-(9-fluorenylmethyloxycarbonyl-4-amino-1-oxyl-4-succinimidyloxycarbonyl-2,2,6,6-tetramethylpiperidine)) that acylates calmodulin specifically at lysines 75 and 148 was recently described (Jackson and Puett, 1984). Chromatographic procedures are described that permit purification to apparent homogeneity of a 1 : 1 and a 2 : 1 adduct characterized by modification at just Lys 75 or at Lys 75 and Lys 148, respectively. These adducts are suitable for detailed characterization in an effort to provide information on calmodulin structure-function relationships. The adducts were incapable of, or exhibited low potency (e.g., 0.1% that of calmodulin) in, stimulating the activity of an activatable bovine brain cyclic nucleotide phosphodiesterase (3,5-cyclic AMP 5-nucleotidehydrolase, EC 3.1.4.17) preparation. Electron paramagnetic resonance (EPR) spectroscopy of the adducts yielded rotational correlation times of approximately 3–6 nsec, in agreement with the expected value for a hydrated protein of this molecular weight (5–7 nsec). Thus, the nitroxide reporter group appears to monitor closely the motion of the protein, and there is no evidence of a major conformational change in the derivative relative to calmodulin. Interestingly, removal of the fluorenylmethyloxycarbonyl portion from the 1 : 1 adduct to give a deprotected 1 : 1 adduct resulted in apparent greater mobility of the probe, since the rotational correlation coefficient was found to be 1 nsec. Circular dichroic spectra were obtained over the wavelength interval 200–250 nm on the two adducts and on the deprotected 1 : 1 adduct. These derivatives, like calmodulin, exhibited a Ca2+-mediated increase in helicity, and the spectra of the adducts in the presence of a chelating agent and in the presence of saturating Ca2+ were similar to those obtained for calmodulin. Thus, the adducts have secondary structures similar to the native protein. Proton nuclear magnetic resonance spectra were determined in the aromatic region (6–8 ppm) for the deprotected 1 : 1 adduct before and after reduction of the nitroxide with ascorbate. The nitroxide had little effect on the chemical shifts of the two tyrosines and the single histidine relative to calmodulin, although the histidine C4 resonance was markedly altered by the addition of ascorbate. In order to explore in greater detail the tertiary structure of the 1 : 1 adduct, a reagent similar to I, but not paramagnetic, was synthesized. This compound II, -N-(9-fluorenylmethyloxycarbonyl)alanine N-hydroxysuccinimide ester, like I, forms a 1 : 1 adduct at Lys 75 and a 2 : 1 adduct at Lys 75 and Lys 148. Proton NMR spectra of adducts with II were not complicated by the relaxation effects arising from adducts with I; thus more definitive assignments could be made to the upfield resonances, including the fluorene protons. Again, it was possible to conclude that adduct formation had no major effect on the tertiary structure of the protein as monitored by chemical shifts associated with various residues. We conclude that modification of just Lys 75, a residue in the long connecting helix of calmodulin, does not lead to major changes in protein conformation but does interfere with the ability of calmodulin to stimulate an activatable form of bovine brain cyclic nucleotide phosphodiesterase. 相似文献