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

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have performed mutational analyses of restriction endonuclease HindIII in order to identify the amino acid residues responsible for enzyme activity. Four of the seven HindIII mutants, which had His-tag sequences at the N-termini, were expressed in Escherichia coli, and purified to homogeneity. The His-tag sequence did not affect enzyme activity, whereas it hindered binding of the DNA probe in gel retardation assays. A mutant E86K in which Lys was substituted for Glu at residue 86 exhibited high endonuclease activity. Gel retardation assays showed high affinity of this mutant to the DNA probe. Surprisingly, in the presence of a transition metal, Mo(2+) or Mn(2+), the E86K mutant cleaved substrate DNA at a site other than HindIII. Substitution of Glu for Val at residue 106 (V106E), and Asn for Lys at residue 125 (K125N) resulted in a decrease in both endonucleolytic and DNA binding activities of the enzyme. Furthermore, substitution of Leu for Asp at residue 108 (D108L) abolished both HindIII endonuclease and DNA binding activities. CD spectra of the wild type and the two mutants, E86K and D108L, were similar to each other, suggesting that there was little change in conformation as a result of the mutations. These results account for the notion that Asp108 could be directly involved in HindIII catalytic function, and that the substitution at residue 86 may bring about new interactions between DNA and cations.
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PMID:Mutational analyses of restriction endonuclease-HindIII mutant E86K with higher activity and altered specificity. 1081 Jan 60

The terminase of bacteriophage SPP1, constituted by a large (G2P) and a small (G1P) subunit, is essential for the initiation of DNA packaging. A hexa-histidine G2P (H6-G2P), which is functional in vivo, possesses endonuclease, ATPase, and double-stranded DNA binding activities. H6-G2P introduces a cut with preference at the 5'-RCGG downward arrowCW-3' sequence. Distamycin A, which is a minor groove binder that mimics the architectural structure generated by G1P at pac, enhances the specific cut at both bona fide 5'-CTATTGCGG downward arrowC-3' sequences within pacC of SPP1 and SF6 phages. H6-G2P hydrolyzes rATP or dATP to the corresponding rADP or dADP and P(i). H6-G2P interacts with two discrete G1P domains (I and II). Full-length G1P and G1PDeltaN62 (lacking domain I) stimulate 3.5- and 1.9-fold, respectively, the ATPase activity of H6-G2P. The results presented suggest that a DNA structure, artificially promoted by distamycin A or facilitated by the assembly of G1P at pacL and/or pacR, stimulates H6-G2P cleavage at both target sites within pacC. In the presence of two G1P decamers per H6-G2P monomer, the H6-G2P endonuclease is repressed, and the ATPase activity stimulated. Based on these results, we propose a model that can account for the role of terminase in headful packaging.
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PMID:Functional analysis of the terminase large subunit, G2P, of Bacillus subtilis bacteriophage SPP1. 1093 Apr 7

Site-directed mutagenesis of the ecoRII gene has been used to search for the active site of the EcoRII restriction endonuclease. Plasmids with point mutations in ecoRII gene resulting in substitutions of amino acid residues in the Asp110-Glu112 region of the EcoRII endonuclease (Asp110 --> Lys, Asn, Thr, Val, or Ile; Pro111 --> Arg, His, Ala, or Leu; Glu112 --> Lys, Gln, or Asp) have been constructed. When expressed in E. coli, all these plasmids displayed EcoRII endonuclease activity. We also constructed a plasmid containing a mutant ecoRII gene with deletion of the sequence coding the Gln109-Pro111 region of the protein. This mutant protein had no EcoRII endonuclease activity. The data suggest that Asp110, Pro111, and Glu112 residues do not participate in the formation of the EcoRII active site. However, this region seems to be relevant for the formation of the tertiary structure of the EcoRII endonuclease.
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PMID:A study of the Asp110-Glu112 region of EcoRII restriction endonuclease by site-directed mutagenesis. 1104 90

Deoxyadenosine undergoes spontaneous deamination to deoxyinosine in DNA. Based on amino acids sequence homology, putative homologs of endonuclease V were identified in several organisms including archaebacteria, eubacteria as well as eukaryotes. The translated amino acid sequence of the Archaeoglobus fulgidus nfi gene shows 39% identity and 55% similarity to the E. coli nfi gene. A. fulgidus endonuclease V was cloned and expressed in E. coli as a C-terminal hexa-histidine fusion protein. The C-terminal fusion protein was purified to apparent homogeneity by a combination of Ni(++) affinity and MonoS cation exchange liquid chromatography. The purified C-terminal fusion protein has a molecular weight of about 25kDa and showed endonuclease activity towards DNA containing deoxyinosine. A. fulgidus endonuclease V has an absolute requirement for Mg(2+) and an optimum reaction temperature at 85 degrees C. However, in contrast to E. coli endonuclease V, which has a wide substrate spectrum, endonuclease V from A. fulgidus recognized only deoxyinosine. These data suggest that the deoxyinosine cleavage activity is a primordial activity of endonuclease V and that multiple enzymatic activities of E. coli endonuclease V were acquired later during evolution.
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PMID:A deoxyinosine specific endonuclease from hyperthermophile, Archaeoglobus fulgidus: a homolog of Escherichia coli endonuclease V. 1105 88

While the mechanisms of tumorigenesis for adrenocortical neoplasms remain unknown, several genes, such as Gsalpha, ACTH receptor (MC2-R), p53, and p16 tumor suppressor genes, are considered to be candidates for adrenocortical neoplasms. Mutation analysis studies have documented these genes in adrenocortical neoplasms, but these studies focused on the mutation of only one of these genes. In the present study we examined the mutations of three of these genes (Gsalpha, MC2-R, and p53) in adrenocortical neoplasms in Japanese patients. We amplified these genes using polymerase chain reaction and directly sequenced them in 30 functioning adrenocortical neoplasms. As for Gsalpha, we identified a heterogeneous substitution of glutamine to histidine at codon 227 and a gain of an Nru I restriction endonuclease site. The mutation was restricted to adenomatous tissue, and did not occur in the adjacent normal adrenal tissue or leukocytes of the patient. We did not find any mutations in MC2-R and p53. In conclusion, although the contribution of these three genes to adrenocortical tumorigenesis remains to be determined, it is suggested that the mutation of Gsalpha might play a role in functional adrenocortical neoplasms.
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PMID:Mutation analysis of Gsalpha, adrenocorticotropin receptor and p53 genes in Japanese patients with adrenocortical neoplasms: including a case of Gsalpha mutation. 1107 27

Several species within the amoeboflagellate genus Naegleria harbor an optional ORF containing group I introns in their nuclear small subunit ribosomal DNA. The different ORFs encode homing endonucleases with 65 to 95% identity at the amino-acid level. I-NjaI, I-NanI and I-NitI, from introns in Naegleria jamiesoni, N. andersoni and N. italica, respectively, were analyzed in more detail and found to be isoschizomeric endonucleases that recognize and cleave an approximal 19-bp partially symmetrical sequence, creating a pentanucleotide 3' overhang upon cleavage. The optimal conditions for cleavage activity with respect to temperature, pH, salt and divalent metal ions were investigated. The optimal cleavage temperature for all three endonucleases was found to be 37 degrees C and the activity was dependent on the concentration of NaCl with an optimum at 200 mM. Divalent metal ions, primarily Mg2+, are essential for Naegleria endonuclease activity. Whereas both Mn2+ and Ca2+ could substitute for Mg2+, but with a slower cleavage rate, Zn2+ was unable to support cleavage. Interestingly, the pH dependence of DNA cleavage was found to vary significantly between the I-NitI and I-NjaI/I-NanI endonucleases with optimal pH values at 6.5 and 9, respectively. Site-directed mutagenesis of conserved I-NjaI residues strongly supports the hypothesis that Naegleria homing endonucleases share a similar zinc-binding structure and active site with the His-Cys box homing endonuclease I-PpoI.
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PMID:Functional characterization of isoschizomeric His-Cys box homing endonucleases from Naegleria. 1110 39

Pyrimidine adducts in cellular DNA arise from modification of the pyrimidine 5,6-double bond by oxidation, reduction or hydration. The biological outcome includes increased mutation rate and potential lethality. A major DNA N:-glycosylase responsible for the excision of modified pyrimidine bases is the base excision repair (BER) glycosylase endonuclease III, for which functional homologs have been identified and characterized in Escherichia coli, yeast and humans. So far, little is known about how hyperthermophilic Archaea cope with such pyrimidine damage. Here we report characterization of an endonuclease III homolog, PaNth, from the hyperthermophilic archaeon Pyrobaculum aerophilum, whose optimal growth temperature is 100 degrees C. The predicted product of 223 amino acids shares significant sequence homology with several [4Fe-4S]-containing DNA N:-glycosylases including E.coli endonuclease III (EcNth). The histidine-tagged recombinant protein was expressed in E.coli and purified. Under optimal conditions of 80-160 mM NaCl and 70 degrees C, PaNth displays DNA glycosylase/ss-lyase activity with the modified pyrimidine base 5,6-dihydrothymine (DHT). This activity is enhanced when DHT is paired with G. Our data, showing the structural and functional similarity between PaNth and EcNth, suggests that BER of modified pyrimidines may be a conserved repair mechanism in Archaea. Conserved amino acid residues are identified for five subfamilies of endonuclease III/UV endonuclease homologs clustered by phylogenetic analysis.
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PMID:A thermostable endonuclease III homolog from the archaeon Pyrobaculum aerophilum. 1116 Aug 80

We describe a premature, small for gestational age infant girl with micropthalmia, bilateral congenital cataracts, hearing impairment, progressive somatic and neurodevelopmental arrest, and infantile spasms. She presented a massive photosensitive reaction with erythema and blistering after minimal sun exposure, which slowly gave place to small skin cancers. Her skin fibroblasts were 10-fold more sensitive than normal to UV exposure due to a severe deficiency in nucleotide excision repair. By complementation analysis, the patient XPCS4RO was assigned to the very rare xeroderma pigmentosum (XP) group G (XP-G). One allele of her XPG gene contained a 526C-->T transition that changed Gln-176 to a premature UAG stop codon. Only a minor fraction of XPG mRNA was encoded by this allele. The second, more significantly expressed XPG allele contained a 215C-->A transversion. This changed the highly conserved Pro-72 to a histidine, a substitution that would be expected to seriously impair the 3' endonuclease function of XPG in nucleotide excision repair. In cases suspected of having XP and/or early-onset Cockayne syndrome, extensive DNA repair studies should be performed to reach a correct diagnosis, thereby allowing reliable genetic counseling and prenatal diagnosis.
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PMID:Xeroderma pigmentosum group G with severe neurological involvement and features of Cockayne syndrome in infancy. 1122 68

Smad proteins are eukarytic transcription regulators in the TGF-beta signaling cascade. Using a combination of sequence and structure-based analyses, we argue that MH1 domain of Smad is homologous to the diverse His-Me finger endonuclease family enzymes. The similarity is particularly extensive with the I-PpoI endonuclease. In addition to the global fold similarities, both proteins possess a conserved motif of three cysteine residues and one histidine residue which form a zinc-binding site in I-PpoI. Sequence and structure conservation in the motif region strongly suggest that MH1 domain may also incorporate a metal ion in its structural core. MH1 of Smad3 and I-PpoI exhibit similar nucleic acid binding mode and interact with DNA major groove through an antiparallel beta-sheet. MH1 is an example of transcription regulator derived from the ancient enzymatic domain that lost its catalytic activity but retained DNA-binding sites.
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PMID:Mh1 domain of Smad is a degraded homing endonuclease. 1124 1

TaqI is a metal-dependent endonuclease that recognizes T(downward arrow)CGA, with the arrow indicating the cleavage site. Mutations at K158 render the enzyme inactive and mutations at K157 significantly reduce DNA cleavage activity (W. Cao and F. Barany (1998) J. Biol. Chem. 273, 33002-33010). Aspartate, glutamate, and histidine substitutions were made at K158 in the wild-type and K157S mutant TaqI endonuclease to understand the functional organization of the active site. None of the mutants was active with Mg(2+), but the DNA cleavage activities were partly rescued by Mn2+ for K157S-K158E and K157S-K158H mutants. The rescuing effects were observed with Mn2+ but not with other divalent cations. K157S-K158E required higher Mn2+ concentrations than the wild-type enzyme for DNA cleavage activity, suggesting that a Mn2+ ion is weakly bound at the 158 position. The need to neutralize K157 to recover the catalytic activity of K158E and K158H indicates that K158 and K157 may interact functionally. In analogy with EcoRV, Ca2+ stimulated Mn2+-mediated cleavage for the wild-type TaqI, suggesting the existence of at least two metal ions at the catalytic center. A catalytic mechanism involving two metal ions and the K157-K158 pair is proposed for TaqI endonuclease.
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PMID:Exploring the catalytic center of TaqI endonuclease: rescuing catalytic activity by double mutations and Mn2+. 1125 28


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