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Donald C. Morizot Jeffrey A. Greenspan Michael J. Siciliano 《Biochemical genetics》1983,21(9-10):1041-1049
Electrophoretic variation ascribable to three protein-coding loci, coding for glutamine synthetase (GS), uridine monophosphate kinase (UMPK), and transferrin (Tf), was observed in three species of fish of the genus Xiphophorus. Electrophoretic patterns in interspecific F1 hybrid heterozygotes suggested monomeric subunit structures of UMPK and Tf and a multimeric structure of undetermined subunit number of GS. Linkage analyses in backcross hybrids indicated a recombination map of GS-0%-Tf-10.8%-UMPK. This group (designated Xiphophorus linkage group VI) was shown to assort independently from the 14 enzyme loci assigned to linkage groups I-V and from 19 other informative markers within the limits of the data. 相似文献
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Desmond R. Jimenez Jeffrey P. Shapiro Raymond K. Yokomi 《Entomologia Experimentalis et Applicata》1994,70(2):143-152
This study was conducted to evaluate the effect of two different biotypes of the sweetpotato whitefly,Bemisia tabaci (Gennadius), on the induction of squash silverleaf (SSL), and to determine if double-stranded RNA (dsRNA) occurs in geographically
remote populations of the two biotypes. Recently collected B-biotype whiteflies from Florida, Arizona, Mississippi, and Texas
(SPW-B) all contained a 7.0 kb dsRNA molecule. Kb dsRNA molecule. Laboratory colonies of A-biotype whiteflies that were originally
collected in 1981 from cotton in Arizona and California did not contain the 7.0 Kb dsRNA. When the two biotypes were compared
only the SPW-B induced rapid onset, grade 5, SSL. DsRNA similar to that found in adult SPW-B was concentrated in whitefly
nymphs, but host plant leaf tissue did not contain any consistent dsRNA molecules. SPW-A only induced low-grade SSL and progeny
of SPW-A that were fed on pumpkin plants displaying SSL did not acquire the ability to express dsRNA or induce SSL. Our data
suggest that dsRNA is not directly involved in the induction of SSL and that SSL is a host-specific response, to a feeding
injury induced by B-biotype whiteflies. The origin and source of the 7.0 Kb dsRNA molecule remains enigmatic but its expression
is constant in the whitefly biotype that is responsible for the induction of SSL and several other plant disorders in the
U.S. 相似文献
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Catarina E. Hioe Denise M. McKinney Jeffrey A. Frelinger Minnie McMillan 《Immunogenetics》1994,40(3):222-229
In order to investigate the role of residues inside and outside the peptide binding cleft of the L2 molecule in peptide presentation to cytotoxic T lymphocytes (CTL), we constructed a series of point mutations in the L
d
gene. We determined the effects of the mutations in the Ld molecule on the binding and recognition of an Ld-restricted CTL epitope derived from the nucleoprotein (NP) of the lymphocytic phoriomeningitis virus (LCMV). Each of the mutations within the Ld peptide binding cleft resulted in a complete loss of CTL recognition. Addition of the LCMV NP peptide to cells expressing these mutants did not increase surface Ld expression, suggesting that the mutations altered peptide binding. Mutations involving pockets D and E within the cleft affected LCMV peptide binding and recognition as drastically as those in pocket B, which was predicted to interact with a main anchor residue of the peptide. In striking contrast, the mutations located outside the cleft did not change either recognition or binding. These results demonstrate that the Ld residues in the peptide binding cleft are the main determinants dictating LCMV NP peptide binding, and that the residues in each of the pockets within the cleft play a role in this interaction. Surprisingly, one mutation outside the peptide binding cleft, T92S, abrogated CTL lysis of target cells treated with the LCMV NP peptide, but not virus-infected cells. These data show that this mutation selectively altered the presentation of the LCMV NP peptide introduced to the cell exogenously, but not endogenously. This implies that the pathway by which peptides associate with class I molecules within the cell differs from that of exogenous peptide binding. 相似文献
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A genomic clone containing the gl1–2 allele has been isolated and sequenced. The predicted amino acid sequence of the gl1–2 protein is identical to that of the GL1-Col allele up to position 201. At this point in the coding region of gl1–2 there is a deletion relative to the wild-type sequence that results in an in-frame stop codon at position 202. This deletion removes 27 amino acid residues, including a highly negatively charged region, from the predicted gl1–2 polypeptide. The loss of this negatively charged carboxy-terminal region from the gl1–2 product is most likely the cause of the partial loss of gene activity which results in a reduction in leaf trichome initiation. 相似文献
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PrP accumulation in the brains of mice infected with scrapie takes several different forms: amyloid plaques, widespread accumulation
in neuropile, and perineuronal deposits. PrP is also sometimes detected within microglia and in or around astrocytes. There
are dramatic and reproducible differences between scrapie strains in the relative prominence of these changes and their distribution
in the brain. Depending on the scrapie strain, PrP pathology is targeted precisely to particular brain areas, often showing
a clear association with identifiable groups of neurons. These results suggest that PrP changes are primarily associated with
neurons, and that different scrapie strains recognize and selectively replicate in different populations of neurons. Immunostaining
at the ultrastructural level demonstrates an association of PrP with neurite plasmalemma, around amyloid plaques, and in areas
of widespread neuropile and perineuronal accumulation. It is probable that PrP is encoded by theSinc gene, which controls the incubation period of scrapie in mice. Studies using the intraocular infection route show that theSinc gene controls the onset rather than the rate of replication, suggesting that PrP may be involved in cell-to-cell spread of
infection. The accumulation of PrP at the surface of neurons is consistent with such a role. 相似文献
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