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Query: EC:3.1.27.3 (
RNase T1
)
1,228
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The avian Fujinami sarcoma virus (FSV) contains a hybrid transforming gene (delta
gag
-fps) with a 5' 1.3-kb portion derived from the
gag
gene of avian retroviruses and a 3' 2.8-kb portion (fps) derived from a cellular prototype. A lambda recombinant DNA clone carrying fps sequences within a 16-kb insert of cellular DNA, termed lambda proto-fps clone 12, has been selected from a chicken DNA library for comparison with the viral onc gene. Mapping of endonuclease-resistant proto-fps DNA fragments and hybridization with cloned viral DNA located FSV-related sequences at the 3' end of the insert within a region of about 4.25 kb. Alignment of endonuclease-resistant proto-fps and viral DNA fragments relative to common
RNase T1
-resistant oligonucleotide sequences of viral RNA, identified by fingerprinting DNA-RNA hybrids, indicated: (i) that proto-fps is colinear with viral fps but is interrupted by 1.75 kb of scattered sequences unrelated to viral fps; (ii) that among the nine endonuclease sites compared, proto-fps and viral fps share one PvuII, one BamHI, and possibly a Kpn1 site at homologous locations, and that they each have unique endonuclease sites and common sites at unique locations; (iii) that within 12 kb upstream from the 5' boundary of overlap with viral fps, proto-fps lacks
gag
-related sequences; and (iv) that proto-fps clone 12, like several others isolated by us, lacks at the 3' end an equivalent of the 3' 10 to 20% of viral fps. The eight endonuclease site-map coordinates of proto-fps and viral DNA also divided 44 fps oligonucleotides of viral RNA into 9 map segments. We conclude that the onc gene of FSV differs from proto-fps in delta
gag
and in multiple point mutations, compatible with a transforming function for the viral gene and a normal function for the cellular sequence homolog. Since proto-fps is unrelated to essential virion genes, the onc gene of FSV must have originated from cellular proto-fps by rare, illegitimate recombination.
...
PMID:Structural relationship between the chicken DNA locus, proto-fps, and the transforming gene of Fujinami sarcoma virus, delta gag-fps. 631 Aug 87
A family of recombinant mink cell focus-forming viruses (MCF) was derived by inoculation of NFS mice with a Friend murine leukemia virus, and their genomes were analyzed by
RNase T1
-resistant oligonucleotide fingerprinting. The viruses were obtained from the thymuses and spleens of preleukemic and leukemic animals and were evaluated for dualtropism and oncogenicity. All these isolates induced cytopathic foci on mink cells but could be classified into two groups based on their relative infectivities for SC-1 (mouse) or mink (ATCC CCL64) cells. One group of Friend MCFs (F-MCFs) (group I) exhibited approximately equal infectivities for SC-1 and mink cells, whereas a second group (group II) infected mink cells 1,000- to 10,000-fold more efficiently than SC-1 cells. Structural analyses of the F-MCFs revealed that group I and group II viruses correlated with recombination of Friend murine leukemia virus with two distinct, but closely related, endogenous NFS proviral sequences. No correlation was found between the type of F-MCF and the tissue of origin or the disease state of the animal. Furthermore, none of the F-MCF isolates were found to be oncogenic in NFS/N or AKR/J mice. F-MCFs of both groups underwent extensive substitution of ecotropic sequences, involving much of the
gag
and env genes of group I F-MCFs and most of the
gag
, pol, and env genes of group II F-MCFs. All F-MCF isolates retained the 3' terminal U3 region of Friend murine leukemia virus. Comparison of the RNAs of the F-MCFs with RNAs of MCFs derived from NFS.Akv-1 or NFS.Akv-2 mice indicated that the F-MCFs were derived from NFS proviral sequences which are distinct from the sequences contained in NFS.Akv MCF isolates. This result suggested that recombination with particular endogenous proviral sequences to generate MCFs may be highly specific for a given murine leukemia virus.
...
PMID:Generation of mink cell focus-forming viruses by Friend murine leukemia virus: recombination with specific endogenous proviral sequences. 642 51
Base-pair formation between two hairpin loops--a "kissing" complex--is an RNA-folding motif that links two elements of RNA secondary structure. It is also a unique protein recognition site involved in regulation of ColE1 plasmid DNA replication. The trans-activation response element (TAR), a hairpin and bulge at the 5' end of the untranslated leader region of the human immunodeficiency virus 1 mRNA, enhances the transcription of the virus and is necessary for viral replication. Gel electrophoresis and absorbance melting curves indicate that a synthesized RNA hairpin (Tar*-16) with a loop sequence complementary to the TAR loop sequence (CUGGGA) associates specifically with a 16-nucleotide TAR hairpin (Tar-16) to form a stable complex.
RNase T1
probing indicates that the three guanines in the Tar-16 loop become inaccessible in the complex. NMR imino proton spectra reveal that 5 base pairs are formed between the two hairpin loops (Tar-16 and Tar*-16); only the adenine at the 3' terminus of the TAR loop does not form a base pair with the 5'-terminal uracil of the complementary loop. A 14-nucleotide hairpin [CCUA(UCCCAG)UAGG] with a loop sequence complementary to the TAR loop is conserved within the
gag
gene of human immunodeficiency virus 1. A synthesized RNA hairpin corresponding to this conserved sequence also binds to the Tar-16 hairpin with high affinity. It is possible that the same RNA loop-loop interaction occurs during the viral life cycle.
...
PMID:Characterization of a "kissing" hairpin complex derived from the human immunodeficiency virus genome. 807 46
The viral infectivity factor (Vif) protein of human immunodeficiency virus type 1 (HIV-1) is essential for viral replication in vivo. Packaging of Vif into viral particles is mediated by an interaction with viral genomic RNA and association with viral nucleoprotein complexes. Despite recent findings on the RNA-binding properties of Vif suggesting that Vif could be involved in retroviral assembly, no RNA sequence or structure specificity has been determined so far. To gain further insight into the mechanisms by which Vif might regulate viral replication, we studied the interactions of Vif with HIV-1 genomic RNA in vitro. Using extensive biochemical analysis, we have measured the affinity of recombinant Vif proteins for synthetic RNAs corresponding to various regions of the HIV-1 genome. We found that recombinant Vif proteins bind specifically to HIV-1 viral RNA fragments corresponding to the 5'-untranslated region (5'-UTR),
gag
and the 5' part of pol (K(d) between 45 nM and 65 nM). RNA encompassing nucleotides 1-497 or 499-996 of the HIV-1 genomic RNA bind 9+/-2 and 21+/-3 Vif molecules, respectively, and at least some of these proteins bind in a cooperative manner (Hill constant alpha(H) = 2.3). In contrast, RNAs corresponding to other parts of the HIV-1 genome or heterologous RNAs showed poor binding capacity and weak cooperativity (K(d) > 200 nM). Moreover,
RNase T1
footprinting revealed a hierarchical binding of Vif, pointing to TAR and the poly(A) stem-loop structures as primary strong affinity targets, and downstream structures as secondary sites with moderate affinity. Taken together, our findings suggest that Vif may assist other proteins to maintain a correct folding of the genomic RNA in order to facilitate its packaging and further steps such as reverse transcription. Interestingly, our results suggest also that Vif could bind the viral RNA in order to protect it from the action of the antiviral factor APOBEC-3G/3F.
...
PMID:Cooperative and specific binding of Vif to the 5' region of HIV-1 genomic RNA. 1623 19
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