Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The Mmineral springs alpha 1-antitrypsin (alpha 1AT) allele, causing alpha 1AT deficiency and emphysema, is unique among the alpha 1AT-deficiency alleles in that it was observed in a black family, whereas most mutations causing alpha 1AT deficiency are confined to Caucasian populations of European descent. Immobilized pH gradient analysis of serum demonstrated that alpha 1AT Mmineral springs migrated cathodal to the normal M2 allele. Evaluation of Mmineral springs alpha 1AT as an inhibitor of neutrophil elastase, its natural substrate, demonstrated markedly lower than normal function. Characterization of the alpha 1AT Mmineral springs gene demonstrated that it differed from the common normal M1(Ala213) allele by a single-base substitution causing the amino acid substitution Gly-67 (
GGG
)----Glu-67 (GAG). Capitalizing on the fact that this mutation creates a polymorphism for the restriction
endonuclease
AvaII, family analysis demonstrated that the Mmineral springs alpha 1AT allele was transmitted in an autosomal-codominant fashion. Evaluation of genomic DNA showed that the index case was homozygous for the alpha 1AT Mmineral springs allele. Cytoplasmic blot analysis of blood monocytes of the Mmineral springs homozygote demonstrated levels of alpha 1AT mRNA transcripts comparable to those in cells of a normal M1 (Val213) homozygote control. Evaluation of in vitro translation of Mmineral springs alpha 1AT mRNA transcripts demonstrated a normal capacity to direct the translation of alpha 1AT. Evaluation of secretion of alpha 1AT by the blood monocytes by pulse-chase labeling with [35S]methionine, however, demonstrated less secretion by the Mmineral springs cells than normal cells. To characterize the posttranslational events causing the alpha 1AT-secretory defect associated with the alpha 1AT Mmineral springs gene, retroviral gene transfer was used to establish polyclonal populations of murine fibroblasts containing either a normal human M1 alpha 1AT cDNA or an Mmineral springs alpha 1AT cDNA and expressing comparable levels of human alpha 1AT mRNA transcripts. Pulse-chase labeling of these cells with [35S]methionine demonstrated less secretion of human alpha 1AT from the Mmineral springs cells than from the M1 cells, and evaluation of cell lysates also demonstrated lower amounts of intracellular human alpha 1AT in the Mmineral springs cells than in the normal M1 control cells. Thus, the Gly-67 --> Glu mutation that characterizes Mmineral springs causes reduced alpha 1AT secretion on the basis of aberrant posttranslational alpha 1AT biosynthesis by a mechanism distinct from that associated with the alpha 1AT Z allele, whereby intracellular aggregation of the mutant protein is etiologic of the alpha 1AT-secretory defect. Furthermore, for the alpha 1AT protein that does reach the circulation, this mutation markedly affects the ability of the molecule to inhibit neutrophil elastase; i.e., the alpha 1AT Mmineral springs allele predisposes to emphysema on the basis of serum apha 1AT deficiency coupled with alpha AT dysfunction.
...
PMID:Molecular basis of alpha 1-antitrypsin deficiency and emphysema associated with the alpha 1-antitrypsin Mmineral springs allele. 196 87
Specific
endonuclease
activities have been found it two Pseudomonas aeruginosa strains. Isolation and purification of enzymes and determining their specific activities have permitted one to find out that PaeI is an isoshizomer of SphI and digests the sequence 5'-GCATG C-3'. Another isolated enzyme PaeII is an isoshizomer of SmaI and cleaves DNA in a fragment 5'-CCC
GGG
-3'. The use of PaeI and PaeII enzymes in genetical engineering and their advantages are discussed.
...
PMID:[New specific endonucleases PaeI and PaeII from Pseudomonas aeruginosa]. 302 9
The XmaI
endonuclease
recognizes and cleaves the sequence C decreases CCGGG. Magnesium is required for catalysis, however, the enzyme forms stable, specific complexes with DNA in the absence of magnesium. An association constant of 1.2 x 10(9)/M was estimated for the affinity of the enzyme for a specific 195 bp fragment. Competition assays revealed that the site-specific association constant represented an approximately 10(4)-fold increase in affinity over that for non-cognate sites. Missing nucleoside analyses suggested an interaction of the enzyme with each of the cytosines and guanines within the recognition site. Recognition of each of the guanines was also indicated by dimethylsulfate interference footprinting assays. The phosphates 5' to the guanines within the recognition site appeared to be the major sites of interaction of XmaI with the sugar-phosphate backbone. No significant interaction of the protein was observed with phosphates flanking the recognition sequence. Comparison of the footprinting patterns of XmaI with those of the neoschizomer SmaI (CCC decreases
GGG
) revealed that the two enzymes utilize the same DNA determinants in their specific interaction with the CCCGGG recognition site.
...
PMID:DNA determinants in sequence-specific recognition by XmaI endonuclease. 756 71
SmaI
endonuclease
recognizes and cleaves the sequence CCC decreases
GGG
. The enzyme requires magnesium for catalysis; however, equilibrium binding assays revealed that the enzyme binds specifically to DNA in the absence of magnesium. A specific association constant of 0.9 x 10(8) M-1 was determined for SmaI binding to a 22-base duplex oligonucleotide. Furthermore, the KA was a function of the length of the DNA substrate and the enzyme exhibited an affinity of 1.2 x 10(9) M-1 for a 195-base pair fragment and which represented a 10(4)-fold increase in affinity over binding to nonspecific sequences. A Km of 17.5 nM was estimated from kinetic assays based on cleavage of the 22-base oligonucleotide and is not significantly different from the KD estimated from the thermodynamic analyses. Footprinting (dimethyl sulfate and missing nucleoside) analyses revealed that SmaI interacts with each of the base pairs within the recognition sequence. Ethylation interference assays suggested that the protein contacts three adjacent phosphates on each strand of the recognition sequence. Significantly, a predicted protein contact with the phosphate 3' of the scissile bond may have implications in the mechanism of catalysis by SmaI.
...
PMID:Sequence-specific DNA recognition by the SmaI endonuclease. 789 84
Using reverse transcription and the polymerase chain reaction, we have cloned estrogen receptor complementary DNAs from normal human uterine tissue. Restriction
endonuclease
analysis identified a polymorphic PvuII recognition site within half of the receptor cDNAs. Sequence analysis revealed a number of differences with the sequence previously reported for the ER cDNA isolated from MCF7 cells and confirmed that the codon for amino acid 400 was erroneously assigned as valine (GTG) rather than glycine (
GGG
). Sequencing also defined the nature of the PvuII polymorphism, with allele A coding for Glu22 and allele B (with an additional PvuII site) coding for Gln22. We demonstrate that both alleles of this receptor activate transcription of an estrogen-responsive gene to the same extent. This selective cloning method should have wide application in the investigation of naturally occurring cDNA variants from diseased tissues, such as breast cancer cell lines and primary tumor specimens.
...
PMID:Characterization of estrogen receptor cDNAs from human uterus: identification of a novel PvuII polymorphism. 939 42
