Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.26.4 (
RNase H
)
2,751
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The mobile element jockey is similar in structural organization and coding potential to the LINEs of various organisms. Current models of the mechanism of transposition involve reverse transcription of an RNA intermediate and utilization of element-encoded proteins. As it is demonstrated here, a 2.23 kb DNA fragment from the region of the jockey encoding the putative reverse transcriptase, was stably introduced into the expression system under inducible control of the Escherichia coli lac regulatory elements. We describe the expression of the 92 kDa protein and identify this polypeptide alone as authentic jockey reverse transcriptase based on some of its physical and enzymic properties. The jockey polymerase demonstrates RNA-directed and
DNA-directed DNA polymerase
activities, but lacks detectable
RNase H
, has a temperature optimum at 26 degrees C, requires Mg2+ or Mn2+ as a cofactor and is inactivated by sulfhydryl reagent. The enzyme prefers poly(rC) and poly(rA) as template and "activated" DNA is not effective. The results of this work suggest that the RNA-directed DNA polymerase coded by jockey elements may be involved in the transcription of the elements.
...
PMID:[Cloning and expression in Escherichia coli of reverse transcriptase coded by the mobile genetic element jockey]. 138 Jun 45
The mobile element jockey is similar in structural organization and coding potential to the LINEs of various organisms. It is transcribed at different stages of Drosophila ontogenesis. The Drosophila LINE family includes active transposable elements. Current models for the mechanism of transposition involve reverse transcription of an RNA intermediate and utilization of element-encoded proteins. As demonstrated here, a 2.23 kb DNA fragment from the region of jockey encoding the putative reverse transcriptase was stably introduced into an expression system under inducible control of the Escherichia coli lac regulatory elements. We describe the expression of the 92 kDa protein and identify this polypeptide alone as the authentic jockey reverse transcriptase based on some of its physical and enzymic properties. The jockey polymerase demonstrates RNA and
DNA-directed DNA polymerase
activities but lacks detectable
RNase H
, has a temperature optimum at 26 degrees C, requires Mg2+ or Mn2+ as a cofactor and is inactivated by sulphydryl reagent. The enzyme prefers poly(rC) and poly(rA) as template and 'activated' DNA is not effective.
...
PMID:Authentic reverse transcriptase is coded by jockey, a mobile Drosophila element related to mammalian LINEs. 171 78
The multifunctional HIV-1 RT (human immunodeficiency virus type 1-reverse transcriptase) enzyme possesses three main functions including the RNA- and DNA-directed DNA polymerases and the
RNase H
. The bisheteroarylpiperazine U-87201E inhibits the two polymerase functions but not the
RNase H
. Enzymatic kinetic studies of the HIV-1 RT-catalyzed RNA- and
DNA-directed DNA polymerase
activities were carried out in order to determine if the inhibitor interferes with either the template:primer or the deoxyribonucleotide triphosphate (dNTP)-binding sites of the enzyme. The data were analyzed using steady-state kinetics, considering that the polymerase reaction is ordered in that the template:primer is added first, followed by the dNTP and that the enzyme functions processively. The data were consistent with the model. The steady-state rate constants for the forward and backward reactions were of similar magnitude for both the RNA- and DNA-catalyzed DNA polymerases and suggest that both functions share the same substrate-binding sites. The dissociation constants for the enzyme-inhibitor and enzyme-substrate-inhibitor complexes were somewhat higher for the
DNA-directed DNA polymerase
function as compared to the RNA directed one. This indicates that U-87201E is a more potent inhibitor for the RNA-directed DNA polymerase than the
DNA-directed DNA polymerase
. The pattern of inhibition exerted by U-87201E was noncompetitive with respect to both the nucleic acid and nucleotide-binding sites of the RT enzyme for both the RNA- and DNA-directed DNA polymerases. Hence, U-87201E inhibits these functions by interacting with a site distinct from the template:primer and dNTP-binding sites. HIV-2 RT was insensitive to U-87201E, demonstrating the unique sensitivity of HIV-1 RT to this inhibitor.
...
PMID:Steady-state kinetic studies with the non-nucleoside HIV-1 reverse transcriptase inhibitor U-87201E. 768 Oct 60
Reverse transcriptase (RT) serves as the replicative polymerase for retroviruses by using RNA and
DNA-directed DNA polymerase
activities coupled with a
ribonuclease H
activity to synthesize a double-stranded DNA copy of the single-stranded RNA genome. In an effort to obtain detailed structural information about nucleic acid interactions with reverse transcriptase, we have determined crystal structures at 2.3 A resolution of an N-terminal fragment from Moloney murine leukemia virus reverse transcriptase complexed to blunt-ended DNA in three distinct lattices. This fragment includes the fingers and palm domains from Moloney murine leukemia virus reverse transcriptase. We have also determined the crystal structure at 3.0 A resolution of the fragment complexed to DNA with a single-stranded template overhang resembling a template-primer substrate. Protein-DNA interactions, which are nearly identical in each of the three lattices, involve four conserved residues in the fingers domain, Asp114, Arg116, Asn119 and Gly191. DNA atoms involved in the interactions include the 3'-OH group from the primer strand and minor groove base atoms and sugar atoms from the n-2 and n-3 positions of the template strand, where n is the template base that would pair with an incoming nucleotide. The single-stranded template overhang adopts two different conformations in the asymmetric unit interacting with residues in the beta4-beta5 loop (beta3-beta4 in HIV-1 RT). Our fragment-DNA complexes are distinct from previously reported complexes of DNA bound to HIV-1 RT but related in the types of interactions formed between protein and DNA. In addition, the DNA in all of these complexes is bound in the same cleft of the enzyme. Through site-directed mutagenesis, we have substituted residues that are involved in binding DNA in our crystal structures and have characterized the resulting enzymes. We now propose that nucleic acid binding to the fingers domain may play a role in translocation of nucleic acid during processive DNA synthesis and suggest that our complex may represent an intermediate in this process.
...
PMID:Crystal structures of an N-terminal fragment from Moloney murine leukemia virus reverse transcriptase complexed with nucleic acid: functional implications for template-primer binding to the fingers domain. 1066 12
Reverse transcriptases (RTs) are multidomain enzymes of variable architecture that couple both RNA- and
DNA-directed DNA polymerase
activities with an
RNase H
activity specific for an RNA:DNA hybrid in order to replicate the single-stranded RNA genome of the retrovirus. Previous structural work has been reported for the heterodimeric HIV-1 and HIV-2 RTs. We now report the first crystal structure of the full-length Moloney murine leukemia virus (MMLV) RT at 3.0 A resolution. The structure reveals a clamp-shaped molecule resulting from the relative positions of the thumb, connection, and
RNase H
domains that is strikingly different from the HIV-1 RT and provides the first example of a monomeric reverse transcriptase. A comparative analysis with related DNA polymerases suggests a unique trajectory for the template-primer exiting the polymerase active site and provides insights regarding processive DNA synthesis by MMLV RT.
...
PMID:The crystal structure of the monomeric reverse transcriptase from Moloney murine leukemia virus. 1513 Apr 74
The duck hepatitis B virus (DHBV) genome contains a pol gene that codes for the viral polymerase protein. This enzyme, which is essential for the replication of the virus, has multiple activities including an RNA directed DNA polymerase or reverse transcriptase (RT) activity, an
RNase H
activity, and a
DNA-directed DNA polymerase
activity. The assay described in this chapter is designed to measure the ability of test compounds to inhibit the RNA-directed DNA polymerase activity of the DHBV pol gene product. The assay is based on research performed in the laboratory of Dr. Christoph Seeger (1) and on the observation that the e stem loop structure in the pregenomic RNA is required for initiation of DNA synthesis (2-4).
...
PMID:A rapid microtiter assay for duck hepatitis virus reverse transcriptase. 2133
