Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Maple syrup urine disease (MSUD) is an autosomal recessive disorder in the oxidative decarboxylation of the branched-chain alpha-keto acids derived from leucine, isoleucine and valine. The enzyme deficient in MSUD, the branched-chain alpha-keto acid dehydrogenase (BCKAD) complex, is a mitochondrial multienzyme complex consisting of at least six distinct subunits. MSUD is genetically heterogeneous as manifested by lesions in different subunits of the BCKAD complex among unrelated patients. To approach the biochemical basis of MSUD involving the dihydrolipoyl transacylase (E2) subunit, the domain structure of this polypeptide from human and bovine livers has been defined by limited proteolysis and cDNA cloning. The assembly of 24 E2 subunits into a cubic structure, forming the core of the mammalian BCKAD complex, was established by electron microscopy and sedimentation equilibrium analysis. Highly assembled bovine E2 devoid of prosthetic lipoic acid has been overexpressed in Escherichia coli. Studies carried out with this bacterial expression system have provided insights into the lipoylation process of E2, and the involvement of the His391 residue in the transacylation reaction. At the genetic level, the human E2 gene (DBT) has been regionally assigned to chromosome 1p31, and a related E2 pseudogene to chromosome 3q24 by in situ hybridization. Genomic cloning has shown that the human E2 gene undergoes premature transcriptional termination and alternate splicing as normal events, although its functional significance is unknown. Through the use of the polymerase chain reaction and other recombinant DNA methods, several compound heterozygous mutations at the E2 locus have been identified in classical as well as thiamine-responsive MSUD patients. These mutations would appear to be useful genetic models, which will facilitate investigations into macromolecular organization and protein-protein interactions. Moreover, an array of precise single and multiple exon deletions has been observed in the amplified mutant E2 transcripts. The results represent unexpected secondary effects that are apparently associated with the above primary mutations in the E2 gene.
Mol Biol Med 1991 Feb
PMID:Maple syrup urine disease: domain structure, mutations and exon skipping in the dihydrolipoyl transacylase (E2) component of the branched-chain alpha-keto acid dehydrogenase complex. 194 90

The molecular pathology of steroid 21-hydroxylase deficiency is attributable to unequal crossover-mediated gene deletion or to large- or small-scale replacement of the functional CYP21B gene sequence by a copy of the analogous CYP21A pseudogene sequence. Because the pathological point mutations originate from the pseudogene which shows only a small number of differences from the functional CYP21B gene sequence, the total number of different pathological point mutations is likely to be small. Mutant P450c21 enzymes carrying specific amino acid substitutions seen in patients with 21-hydroxylase deficiency exhibit activities that correlate with the clinical severity of the disease and with biochemical abnormalities such as 17-hydroxyprogesterone levels after ACTH (corticotropin) stimulation.
J Steroid Biochem Mol Biol 1991
PMID:Molecular pathology of steroid 21-hydroxylase deficiency. 195 56

A sequence of 10,621 base-pairs from the alpha-like globin gene cluster of rabbit has been determined. It includes the sequence of gene zeta 1 (a pseudogene for the rabbit embryonic zeta-globin), the functional rabbit alpha-globin gene, and the theta 1 pseudogene, along with the sequences of eight C repeats (short interspersed repeats in rabbit) and a J sequence implicated in recombination. The region is quite G + C-rich (62%) and contains two CpG islands. As expected for a very G + C-rich region, it has an abundance of open reading frames, but few of the long open reading frames are associated with the coding regions of genes. Alignments between the sequences of the rabbit and human alpha-like globin gene clusters reveal matches primarily in the immediate vicinity of genes and CpG islands, while the intergenic regions of these gene clusters have many fewer matches than are seen between the beta-like globin gene clusters of these two species. Furthermore, the non-coding sequences in this portion of the rabbit alpha-like globin gene cluster are shorter than in human, indicating a strong tendency either for sequence contraction in the rabbit gene cluster or for expansion in the human gene cluster. Thus, the intergenic regions of the alpha-like globin gene clusters have evolved in a relatively fast mode since the mammalian radiation, but not exclusively by nucleotide substitution. Despite this rapid mode of evolution, some strong matches are found 5' to the start sites of the human and rabbit alpha genes, perhaps indicating conservation of a regulatory element. The rabbit J sequence is over 1000 base-pairs long; it contains a C repeat at its 5' end and an internal region of homology to the 3'-untranslated region of the alpha-globin gene. Part of the rabbit J sequence matches with sequences within the X homology block in human. Both of these regions have been implicated as hot-spots for recombination, hence the matching sequences are good candidates for such a function. All the interspersed repeats within both gene clusters are retroposon SINEs that appear to have inserted independently in the rabbit and human lineages.
J Mol Biol 1991 Nov 20
PMID:Sequence and comparative analysis of the rabbit alpha-like globin gene cluster reveals a rapid mode of evolution in a G + C-rich region of mammalian genomes. 196 Jul 25

EcoRI fragments of DNA isolated from the different mouse organs were hybridized to radioactivity labelled probe specific for the gene of oncoprotein p53. The analysis of the blot-hybridization points to the existence of the specific blockage of an EcoRI site flanking a 3.3 kb fragment of DNA including the pseudogene p53, isolated from the skin tissue. The existence of a polymorphous EcoRI site localized distally to the pseudogene p53 has been demonstrated in the DNA of mice of different lines.
Mol Gen Mikrobiol Virusol 1990 Apr
PMID:[Tissue-specific blocking of the EcoRI site adjacent to the pseudogene for mouse oncoprotein p53]. 197 62

A point mutation within exon 7 producing an amino acid coding change and a recognition site for the endonuclease Ncol has been reported in the HLA-Bw47-linked CYP21A pseudogene and some mutant CYP21B (steroid 21-hydroxylase) genes of patients with congenital adrenal hyperplasia (CAH). Whether this mutation is deleterious was not demonstrated. We analyzed DNA from various subjects for the presence of the exon 7 Ncol site: group 1, 10 normal subjects; group 2, 11 patients with salt-losing CAH; and group 3, 18 members of an Amish pedigree in which 10 expressed HLA-Bw47 not linked to CAH. Southern blots of Ncol-digested genomic DNA which were hybridized with CYP21 cDNA showed that four subjects of group 1 had a heterozygous Ncol pattern. In group 2, seven patients had the Ncol site; two of them were homozygous for the site and had deletions of both CYP21B genes. The other five were heterozygous for the Ncol site, which was linked to a CYP21B deletion and a HLA-Bw47 haplotype. In group 3, no one exhibited the exon 7 Ncol site. To map the Ncol sites to CYP21A or CYP21B in the normal subjects, DNA from the four Ncol heterozygous subjects was double digested with Ncol and Mbol and hybridized with CYP21 cDNA. Ncol-Mbol fragments unique to CYP21A were identified in all four, but the smaller CYP21B-specific fragments were not detected. Their genomic DNA in the region of exon 7 (bases +1167 to +2058) was then amplified, cloned, and sequenced.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Endocrinol 1990 Sep
PMID:Exon 7 Ncol restriction site within CYP21B (steroid 21-hydroxylase) is a normal polymorphism. 197 47

The nucleotide sequence of the Fc and hinge regions of a chimpanzee monoclonal antibody has been determined. Most of the sequence is similar to the human IgG1 sequence. However, the chimpanzee hinge regions differs from the human hinge region in six of 48 nucleotides, which leads to three amino acid substitutions. Two of the amino acid changes are not conservative and may lead to differences in flexibility of the hinge. The chimp hinge sequence seems to be a combination of the human IgG1 hinge and the hinge sequence of a human IgG pseudogene. The implications of this difference for the evolution of human IgG subgroup is discussed. Despite differences in the hinge regions, the chimpanzee monoclonal antibody differs from the most closely related human IgG1 allotype only slightly more than the two most distantly related human allotypes differ from each other.
Mol Immunol
PMID:Nucleotide sequence of chimpanzee Fc and hinge regions. 206 15

The mild nonclassic form of steroid 21-hydroxylase deficiency is one of the most common autosomal recessive disorders in humans, occurring in almost 1% of caucasians and about 3% of Ashkenazi Jews. Many patients with this disorder carry a Val-281----Leu missense mutation in the CYP21 gene. This and most other mutations causing 21-hydroxylase deficiency are normally present in the CYP21P pseudogene and have presumably been transferred to CYP21 by gene conversion. To identify other potential nonclassic alleles, we used recombinant vaccinia virus to express two mutant enzymes carrying the mutations Pro-30----Leu (normally present in CYP21P) and Ser-268----Thr (considered a normal polymorphism of CYP21). Whereas the activity of the protein carrying the Ser----Thr mutation was indeed indistinguishable from the wild type, the enzyme with the Pro----Leu substitution had 60% of wild-type activity for 17-hydroxyprogesterone and about 30% of normal activity for progesterone when assayed in intact cells. When kinetic analysis of the latter mutant enzyme was performed in cellular lysates, the first order rate constants (maximum velocity/dissociation constant) for both substrates were reduced 10- to 20-fold compared with those for the wild-type enzyme. Pro-30 is conserved in many microsomal P450 enzymes and may be important for proper orientation of the enzyme with respect to the aminoterminal transmembrane segment. The Pro----Leu mutation was present in 5 of 18 patients with nonclassic 21-hydroxylase deficiency, suggesting that this mutation indeed acts as a nonclassic deficiency allele.
Mol Endocrinol 1991 May
PMID:A mutation (Pro-30 to Leu) in CYP21 represents a potential nonclassic steroid 21-hydroxylase deficiency allele. 207 28

The chicken immunoglobulin light-chain gene (IgL) encodes only a single variable gene segment capable of recombination. To generate an immune repertoire, chickens diversify this unique rearranged VL gene segment during B-cell development in the bursa of Fabricius. Sequence analysis of IgL cDNAs suggests that both gene conversion events derived from VL segment pseudogene templates (psi VL) and non-template-derived single-base-pair substitutions contribute to this diversity. To facilitate the study of postrecombinational mechanisms of immunoglobulin gene diversification, avian B-cell lines were examined for the ability to diversify their rearranged IgL gene during in vitro passage. One line that retains this ability, the avian leukosis virus-induced bursal lymphoma cell line DT40, has been identified. After passage for 1 year in culture, 39 of 51 randomly sequenced rearranged V-J segments from a DT40 population defined novel subclones of the parental tumor. All cloned V-J segments displayed the same V-J joint, confirming that the observed diversity arose after V-J rearrangement. Most sequence variations that we observed (203 of 220 base pairs) appeared to result from psi VL-derived gene conversion events; 16 of the 17 novel single nucleotide substitutions were transitions. Based on these data, it appears that immunoglobulin diversification during in vitro passage of DT40 cells is representative of the diversification that occurs during normal B-cell development in the bursa of Fabricius.
Mol Cell Biol 1990 Jun
PMID:Ongoing diversification of the rearranged immunoglobulin light-chain gene in a bursal lymphoma cell line. 211 50

A lambda phage recombinant clone, 25 S, which contains a 15.5-kb EcoRI human genomic DNA fragment, has been characterized. Restriction mapping and Southern blot hybridization indicated a 3.0-kb HindIII fragment containing metallothionein (MT)-like sequences. Several interesting features were found upon comparison of this nucleotide sequence with that of other human MT genes: (1) sequences representing the 5' regulatory region, the 5' untranslated region, and the first exon are not contained in the 3.0-kb HindIII fragment; (2) the coding sequence of the second exon (amino acids 10-31 encoding a portion of the beta-domain of the MT protein) has 11 amino acid changes out of a total of 21, whereas, the third exon (amino acids 32-61, representing the complete alpha-domain of the MT protein) has only 4 amino acid substitutions; however, all cysteine residues are conserved; (3) this MT-like gene retains intron sequences and processing signals; (4) Southern blot analysis of human genomic DNA indicated this MT-like gene is located on a 10.5-kb EcoRI genomic DNA fragment; and (5) unusual AG/CT-rich repetitive elements are located within the second intron and upstream of the second exon of this MT-like gene. This gene is not expressed in response to metal induction in two human cell lines, as shown by northern blot analyses. Based on these observations, this MT-like gene represents a unique nonprocessed pseudogene of the human MT multigene family.
J Mol Evol 1990 Sep
PMID:A human metallothionein pseudogene containing AG/CT repetitive elements. 212 Apr 57

There are at least three transcriptionally active human ADP/ATP translocase genes. We have isolated seven ADP/ATP translocase pseudogenes from recombinant human genomic libraries. Each pseudogene sequence had more than 85% identity with the sequence of the human ADP/ATP translocase cDNA derived from fibroblast mRNA, but each had mutations that precluded synthesis of a functional protein. Using an intron probe derived from a partial clone of the human fibroblast ADP/ATP translocase gene, we localized the gene to chromosome Xq13----Xq25-26. The gene encoding the skeletal muscle translocase has previously been shown to be on chromosome 4. Therefore, the human ADP/ATP translocase genes are members of a multigene family that includes pseudogenes and has been dispersed to at least two chromosomes.
Somat Cell Mol Genet 1990 Mar
PMID:A human ADP/ATP translocase gene has seven pseudogenes and localizes to chromosome X. 215 97


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