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1.
2.
High level of divergence of male-reproductive-tract proteins, between Drosophila melanogaster and its sibling species, D. simulans 总被引:1,自引:0,他引:1
We compared male-reproductive-tract polypeptides of Drosophila melanogaster
and D. simulans by using two-dimensional gel electrophoresis. Approximately
64% of male-reproductive-tract polypeptides were identical between two
randomly chosen isofemale lines from these two species, compared with 83%
identity for third-instar imaginal wing-disc polypeptides. Qualitatively
similar differences were found between reproductive tracts and imaginal
discs when D. sechellia was compared with D. melanogaster and with D.
simulans. When genic polymorphism was taken into account, approximately 10%
of male- reproductive-tract polypeptides were apparently fixed for
different alleles between D. melanogaster and D. simulans; this proportion
is the same as that found for soluble enzymes by one-dimensional gel
electrophoresis. Strikingly, approximately 20% of male-reproductive- tract
polypeptides of either D. melanogaster or D. simulans had no detectable
homologue in the other species. We propose that proteins of the Drosophila
male reproductive tract may have diverged more extensively between species
than have other types of proteins and that much of this divergence may
involve large changes in levels of polypeptide expression.
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3.
Mapping the genomic location of the gene encoding alpha-amanitin resistance in vaccinia virus mutants. 总被引:1,自引:1,他引:0
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To facilitate the determination of the genomic location of the vaccinia virus gene(s) encoding alpha-amanitin resistance (alpha r) (Villarreal et al., J. Virol. 51:359-366, 1984), a collection of alpha r, temperature-sensitive (ts) mutants were isolated. The premise of these experiments was that mutants might be found whose dual phenotypes were the result of a single or two closely linked mutations. Genetic analyses of the alpha rts mutant library revealed two mutants, alpha rts7 and alpha rts12, that apparently fit this criterion; in alpha rts7 the two lesions were indistinguishable, whereas in alpha rts12 the two mutations were closely linked but separable. Cloned vaccinia virus HindIII DNA fragments were used to marker rescue the temperature-sensitive phenotype of these two dual mutants. The temperature-sensitive lesion of alpha rts7 was rescued by the HindIII N fragment (1.5 kilobases), whereas alpha rts12 was rescued by the neighboring HindIII M fragment (2.0 kilobases). The progeny virions of the alpha rts7 HindIII-N rescue reverted to an alpha-amanitin-sensitive phenotype, whereas the alpha rts12 HindIII-M progeny were still resistant to the drug. Taken together, these data indicate that the gene encoding alpha-amanitin resistance maps to the HindIII N fragment and provides evidence for the existence of essential vaccinia virus genes in a region of the genome previously believed to be nonessential for replication in tissue culture. Biochemical analyses revealed that both mutants were capable of synthesizing DNA as well as early and late viral proteins at the permissive and nonpermissive temperatures. At the nonpermissive temperature alpha rts12 and alpha rts7 were unable to process the major core precursors P94 and P65 into VP62 and VP60. 相似文献
4.
Expression of the gene encoding transforming growth factor-alpha (TGF alpha) was examined in developing rat embryos by using a cloned TGF alpha cDNA as a hybridization probe. Northern blot analysis of RNA isolated from whole fetuses revealed that TGF alpha mRNA was present at relatively high levels in 8- through 10-day-old embryos and then declined to the low or undetectable level, which is characteristic of adult tissues before birth. The level of TGF alpha mRNA present during early gestation was similar to that present in retrovirus-transformed cells in culture, suggesting that TGF alpha expression is not highly localized in the embryo. These observations are consistent with the hypothesis that TGF alpha plays a role in development, possibly as a fetal growth factor. 相似文献
5.
6.
7.
Genetic analysis of the enhancer requirements for polyomavirus DNA replication in mice. 总被引:15,自引:10,他引:5
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In this report, we describe the first systematic analysis of the genetic requirements for polyomavirus (Py) enhancer-activated viral DNA replication during the acute phase of infection in mice. Four mutants were made which substituted XhoI sites for conserved enhancer consensus sequences (adenovirus type 5 E1A, c-fos, simian virus 40, and a glucocorticoidlike consensus sequence). Viral DNA replication in infected mouse organs was measured by DNA blot analysis. Only the loss of the glucocorticoidlike consensus sequence element significantly reduced Py DNA replication in the kidneys, the primary target organ for viral replication. The loss of the c-fos, adenovirus type 5 E1A, or simian virus 40 consensus sequences, however, expanded organ-specific viral DNA replication, relative to wild-type Py, by allowing high-level replication in the pancreas or heart or both. Analysis of Py variants selected for replication in undifferentiated embryonal carcinoma cell lines (PyF441, PyF111) showed that there was little change in levels of viral DNA replication in kidneys and other organs as compared with those in the wild-type virus. If the entire B enhancer is deleted, only low overall levels of viral replication are observed. Wild-type levels of replication in the kidneys can be reconstituted by addition of a single domain from within the A enhancer (nucleotides 5094 to 5132) to the B enhancer deletion virus, suggesting that a single domain from the A enhancer can functionally substitute for the entire B enhancer. This also indicates that the determinants for kidney-specific replication are not found in the B enhancer. 相似文献
8.
Human cytomegalovirus maturational proteinase: expression in Escherichia coli, purification, and enzymatic characterization by using peptide substrate mimics of natural cleavage sites. 总被引:8,自引:8,他引:0
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P J Burck D H Berg T P Luk L M Sassmannshausen M Wakulchik D P Smith H M Hsiung G W Becker W Gibson E C Villarreal 《Journal of virology》1994,68(5):2937-2946
The proteolytic processing of the human cytomegalovirus (HCMV) assembly protein, resulting in truncation of its C terminus, is an essential step in virion maturation. The proteinase responsible for this cleavage is the amino-terminal half of the protein encoded by the UL80a open reading fame. We have obtained high expression levels of this 256-amino-acid HCMV proteinase, assemblin, in Escherichia coli. In addition to the 28-kDa proteinase, a 15-kDa protein comprising the first 143 amino acids and a 13-kDa protein comprising the last 113 amino acids of the 28-kDa HCMV proteinase were present. Both the 28-kDa proteinase and the 15-kDa protein were purified by a two-step chromatographic procedure utilizing anion exchange in urea and dithiothreitol and size exclusion in NaSCN and dithiothreitol. Activation of the purified 28-kDa proteinase required denaturation in urea as well as complete reduction of all five cysteine residues in the molecule. Removal of the urea by dialysis with retention of the reducing agent yielded an active proteinase. Addition of glycerol to 50% enhanced the activity. The HCMV proteinase cleaved the peptides RGVVNASSRLAK and SYVKASVSPE, which are mimics of the maturational (M)- and release (R)-site sequences, respectively, in the UL80a-encoded protein. The cleavage site in the peptides was at the same Ala-Ser scissile bond as observed in the UL80a protein. The Km value for the cleavage of RGVVNASSRLAK (M-site mimic) by the proteinase was similar to that for SYVKASVSPE (R-site mimic), but the turnover (kcat) of the M-site peptide mimic substrate by the proteinase was six to eight times faster. The peptide homologs of the herpes simplex virus type 1 M- and R-site sequences in the UL26-encoded protein were also cleaved by the HCMV proteinase, although at rates slower than those for the HCMV substrates. The HCMV proteinase was inhibited by Zn2+ and by alkylating agents, but only at very high inhibitor concentrations. The purified 15-kDa protein, subjected to the same activation conditions as the 28-kDa proteinase, had no enzymatic activity against the HCMV M- and R-site peptide substrates. 相似文献
9.
RS Fisher 《The Journal of general physiology》1977,69(5):571-604
When the outer surface of short-circuited frog skin was penetrated with microelectrodes, stable negative potentials that averaged near -100 mV were recorded consistently, confirming the results of Nagel (W. Nagel. 1975. Abstracts of the 5th International Biophysics Congress, Copenhagen. P-147.). The appearance of these stable potentials, V(O), concurrent with the observations that (a) a high resistance outer barrier R(O) accounting for approximately 75 percent or more of the transcellular resistance of control skins had been penetrated and that (b) 10(-5) M amiloride and reduced [Na] outside caused the values of V(O) to increase towards means value near -130 mV while the values of percent R(O) increased to more than 90 percent. It was of relationships were the same as the values of E(1) observed in studies of the current-voltage relationships were the same as the values of E’(1) defined as the values of voltage at the inner barrier when the V(O) of the outer barrier was reduced to zero by voltage clamping of the skins. Accordingly, these data are interpreted to mean that the values of E(1), approximately 130 mV, represent the E(Na) of the sodium pump at the inner barrier. 2,4-DNP was observed to decrease the values of transepithelial voltage less than E(1) the V(O) was negative. These data can be interpreted with a simple electrical equivalent circuit of the active sodium transport pathway of the frog skin that includes the idea that the outer membrane behaves as an electrical rectifier for ion transport. 相似文献
10.
Polymerase chain reaction (PCR) amplification was employed to construct a mosaic gene consisting of the propeptide region of protein S and the glutamic acid-rich domain of osteonectin. The strategy is straightforward, results in large amounts of material, and is universally applicable for the generation of protein domain chimeras. In some cases 10% dimethyl sulfoxide aided the amplification. Four base CCGC "clamp" sequences adjacent to BamHI restriction sites at the ends of the PCR products were used to enhance the ligation of products. A hybrid inverse complement oligonucleotide primer composed of sequences containing 20 nucleotides of protein S and 16 nucleotides of osteonectin was used in the first round of PCR. An additional osteonectin sequence was added to the initial amplified product by performing PCR using a second "boot-strap" primer containing 18 nucleotides of osteonectin. Primers used to amplify osteonectin encompassed the 146-aminoacid NH2-terminal half of osteonectin. The double-stranded first-round fragments of protein S-osteonectin and osteonectin were subsequently mixed together and one elongation cycle of PCR was performed. Annealing occurred as the result of the 34-base-pair overlap region composed of osteonectin sequence. Taq polymerase was used for elongation with subsequent recombinant DNA synthesis. After elongation, external primers were added to amplify the protein S-osteonectin gene construct. The protocol we have developed allows noncoding and coding segments of DNA to be linked, GC-rich areas of DNA to be amplified, hybridization temperatures to be increased, annealing times to be reduced, and PCR of products to be subcloned. 相似文献