Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.8 (cholinesterase)
 12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human tissues have two distinct cholinesterase activities: acetylcholinesterase and butyrylcholinesterase. Acetylcholinesterase functions in the transmission of nerve impulses, whereas the physiological function of butyryl-cholinesterase remains unknown. An atypical form of butyrylcholinesterase or the absence of its activity leads to prolonged apnea following administration of the muscle relaxant suxamethonium. Inheritance of these butyrylcholinesterase variants is consistent with the enzyme activity being encoded in a single autosomal locus, BCHE (formerly CHE1 and E1), which has been assigned to chromosome 3. Previous in situ hybridization of a BCHE cDNA probe gave evidence of homologous sequences at 3q26 and 16q11-q23, raising the possibility of more than one locus coding for butyrylcholinesterase [H. Soreq, R. Zamir, D. Zevin-Sonkin, and H. Zakut (1987) Hum. Genet. 77: 325-328]. Using a different cDNA probe hybridized in situ to 46,XX,inv(3)(p25q21) metaphase chromosomes, we report here the localization of BCHE to a single autosomal location: 3q26.
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PMID:The cloned butyrylcholinesterase (BCHE) gene maps to a single chromosome site, 3q26. 176 57

Serum cholinesterase (butyrylcholinesterase, EC 3.1.1.8, BChE) is controlled by two genetic loci, CHE1 and CHE2. The CHE1 locus has been mapped to 3q, but the map location of CHE2 is uncertain. In an effort to clarify the location of CHE2, we combined all the published linkage analysis data for CHE2 (as summarized in the Keats Linkage Database) with the data from the UCLA Linkage Database. Exclusions with substantial portions of the genome could be made (notably with portions of chromosomes 1, 2, 3, 4, 6, 7, 8, 9, 14, 16, 18, 19, 20, 22, and LG1). Although not quite statistically significant (zeta = 2.51), loose linkage (theta = 0.32) of CHE2 with the haptoglobin locus on 16q22 was the most likely conclusion from the family data. In addition, calculating the lod score between CHE2 and the available linkage map of chromosome 16 (markers HBA, PGP, FRA16A, and HP) resulted in an overall lod score of 3.2. This result is particularly intriguing given the hybridization of a BChE cDNA (designated CHEL3) to the same region. Resolution of the issue will require more detailed linkage studies of CHE2 on chromosome 16 and a better understanding of the relationship between the CHE1 and CHE2 loci with respect to production of serum cholinesterases.
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PMID:Mapping studies of the serum cholinesterase-2 locus (CHE2). 277 53

A sample of the Italian population was investigated to determine the CHE1*u, CHE1*a and CHE1*f allelic variants at the polymorphic locus CHE1 for the serum cholinesterase enzyme. We examined 4051 serum samples from schoolchildren of Milan and estimated the following allelic frequencies for the CHE1 locus: CHE1*u = 0.9636; CHE1*a = 0.0263; CHE1*f = 0.0101. These allelic frequencies are compared with those from other Italian, European, North African and Middle-Eastern countries. Our study confirms the validity of Garry's method in discriminating between the "usual" genotype and the "atypical" and "fluoride-resistant" ones.
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PMID:Polymorphism of the locus CHE1 of pseudocholinesterase in Italy. 315 73

A large Hutterite kindred was examined for possible linkage between the chromosome 3 markers; cholinesterase (CHE1), transferrin (TF), and alpha-2HS glycoprotein (AHSG). Linkage between TF and AHSG was suggested in males (z = 1.515, theta = 0.08) and between CHE1 and TF(z = 0.661, theta = 0.21). However, linkage between CHE1 and AHSG in males was not established. Based on lods and a nuclear family informative for all three loci a possible chromosomal alignment for the loci is presented.
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PMID:The sequence of chromosome 3 loci AHSG:TF:CHE1. 355 58

A cloned human cDNA for cholinesterase (ChE) was used as a probe for in situ hybridization to spread lymphocyte chromosomes to map the structural human CHE genes to distinct chromosomal regions. The recent genetic linkage assignment of the CHE1 locus of the CHE gene to chromosome 3q was confirmed and further refined to 3q21-q26, close to the genes coding for transferrin (TF) and transferrin receptor (TFRC). The CHE1 allele localizes to a 3q region that is commonly mutated and then associated with abnormal megakaryocyte proliferation in acute myelodysplastic anomalies. In view of earlier findings that ChE inhibitors induce megakaryocytopoiesis in culture, this localization may indicate that ChEs are involved in regulating the differentiation of megakaryocytes. A second site for ChEcDNA hybridization was found on chromosome 16p11-q23, demonstrating that the CHE2 locus of the cholinesterase gene, which directs the production of the common C5 variant of serum ChE, also codes for a structural subunit of the enzyme and is localized on the same chromosome with the haptoglobin (HP) gene, both genes being found on the long arm of chromosome 16. The finding of two sites for ChEcDNA hybridization suggests that the two loci coding for human ChEs may include nonidentical sequences responsible for the biochemical differences between ChE variants.
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PMID:Human cholinesterase genes localized by hybridization to chromosomes 3 and 16. 369 76

A cloned human cDNA for transferrin (TF) was used as hybridization probe in analysing a series of rodent x human somatic cell hybrids for the presence of human TF sequences. The assignment to chromosome 3 was further refined to region 3q21----3qter using hybrids that carried a translocated chromosome 3 and fibroblasts from a patient trisomic for this region. The gene for TF therefore maps to the same region as the gene for transferrin receptor (TFR) thereby defining an iron transport region on 3q2 to which the transferrin-related tumor associated antigen p97 may also belong. It follows that the genes for pseudocholinesterase (CHE1), ceruleoplasmin (CP) and alpha-2HS-glycoprotein (A2HS) which belong to the, as yet unassigned, linkage group of TF, now also map to chromosome 3 in man.
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PMID:The structural gene for transferrin (TF) maps to 3q21----3qter. 632 58

Genetic linkage analysis of a pedigree with four different alleles for pseudocholinesterase (CHE1) gives a positive lod score of 0.37 at theta = 0.16 for linkage with transferrin (TF), a finding which supports previous reports of linkage between CHE1 and TF. Evaluation of linkage relations of CHE1 and TF using unreported families from our data bank fails to establish linkage with chromosome 1 loci (6-PGD, Rh, PGM1, AMY2 and FY). These results are consistent with recent studies which suggest that TF is on human chromosome 3.
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PMID:Genetic linkage studies of transferrin, pseudocholinesterase, and chromosome 1 loci. 674 58

We estimated the allele frequencies of three variants of serum butyryl-cholinesterase, CHE1*U, CHE1*A and CHE1*F in an urban population of Santiago, Chile, resulting from a mixture of Amerindians with Europeans (mostly Spanish). The CHE1*A frequency was approximately that expected for this population but the incidence of CHE1*F was higher than previous studies would have predicted, probably because in this case more precise techniques were used for its detection. The finding of a CHE1 AK individual suggests that allele CHE1*K is also present at an appreciable frequency in this population.
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PMID:Serum butyrylcholinesterase (CHE1) polymorphism in a Chilean population of mixed ancestry. 926 69

Recent evidence has denied genetic abnormality as a mechanism of the C5 variant of butyrylcholinesterase (BChE) and proposed the binding of an unknown protein with the C4 component. The present study aimed to evaluate whether the coding sequences and non-translated sequences of the BChE gene at exons 1 to 4, 3q are structurally different in subjects having elevated BChE with and without the C5 variant phenotype. We also attempted to identify the unknown protein associated with the C5 variant and measured the BChE-specific activity in the C5 variant with an enzyme-linked immunosorbent assay (ELISA) using anti-BChE monoclonal antibody. We investigated five subjects, four of whom had elevated plasma BChE (three C5-positive [C5(+)] and one C5-negative [C5(-)]) and one control with a normal plasma BChE level. Direct DNA sequencing of the BChE gene revealed no relevant genetic mutations and no abnormal migrations in the genes of all five subjects. Precipitation of the patients' sera with anti-human immunoglobulin A (IgA), -IgG, -IgM, anti-human albumin antibodies had no effect on the BChE activity. The measured BChE activity in C5(+) was 30 to 54% higher than the activity calculated from BChE protein content. The present results suggest that the C5(+) phenotype is not associated with any genetic abnormality in the CHE1 locus, and BChE-specific activity is enhanced in the C5(+) variant. However, the exact nature of the unknown protein related to the C5(+) phenotype remains unclear.
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PMID:Genetic and immunological analyses of patients with increased serum butyrylcholinesterase activity and its C5 variant form. 1549 62