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Target Concepts:
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Query: EC:2.5.1.61 (
porphobilinogen deaminase
)
637
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hereditary deficiency of complement component C3 in a 10-yr-old boy was studied. C3 could not be detected by RIA of serum from the patient. Segregation of C3 S and C3 F allotypes within the family confirmed the presence of a null gene for C3, for which the patient was homozygous. 30 exons have been characterized, spanning the entire beta chain of C3 and the alpha chain as far as the C3d region. Sequence analysis of the exons derived from the C3 null gene showed no abnormalities in the coding sequences. A GT-AT mutation at the 5' donor splice site of the intervening sequence 18 was found in the C3 null gene. Exons 17-21 were amplified by the polymerase chain reaction (PCR) from first-strand cDNA synthesized from mRNA obtained from peripheral blood monocytes stimulated with LPS. This revealed a 61-bp deletion in exon 18, resulting from splicing of a
cryptic
5' donor splice site in exon 18 with the normal 3' splice site in exon 19. This deletion leads to a disturbance of the reading frame of the mRNA with a stop codon 17 bp downstream from the abnormal splice in exon 18. His parents had both the normal and abnormal C3 mRNA and were shown to be heterozygous for this mutation by sequence analysis of genomic DNA amplified by PCR. Similar splice mutants have previously been reported in the beta-globin, phenylalanine hydroxylase, and
porphobilinogen deaminase
genes. This mutation is sufficient to cause the deficiency of C3 in the patient.
...
PMID:Molecular basis of hereditary C3 deficiency. 221 5
Three splicing defects (IVS1+3G-->T, 86A-->T, IVS13-2A-->G), an insertion (416insCA), and two missense mutations (664G-->A and 833T-->G) in the
porphobilinogen deaminase
(
PBGD
) gene were identified in six unrelated Finnish patients with acute intermittent porphyria (AIP). The IVS1+3G-->T substitution resulted in activation of a
cryptic
splice site in intron 1 and retention of a 67-bp fragment in the mutant transcript. The 86A-->T mutation at the end of exon 3 was predicted to cause an amino acid substitution (E29L). However, sequencing of the cDNA sample of the proband revealed exon 3 skipping from the mutant transcript. The IVS13-2A-->G substitution caused retention of intron 13 in the mutant transcript. In exon 8, 416insCA resulted in a frameshift. All three splicing defects and the CA insertion resulted in a truncated protein and thus, probably the loss of
PBGD
activity. The two novel missense mutations, 664G-->A in exon 12 and 833T-->C in exon 14 caused a single amino acid substitution (V222M and L278P). So far 25 different mutations have been characterized from 37 (93%) of a total of 40 unrelated Finnish AIP families, confirming the genetic heterogeneity of the disease even in a previously isolated area of Finland.
...
PMID:Three splicing defects, an insertion, and two missense mutations responsible for acute intermittent porphyria. 965 2
Acute intermittent porphyria (AIP) is an autosomal dominant disorder caused by a partial defect of the heme biosynthesis enzyme,
porphobilinogen deaminase
(
PBGD
).
PBGD
is encoded by two distinct mRNA species expressed in a tissue-specific manner from a single gene. One transcript is expressed in erythroid tissues, while the housekeeping transcript is expressed in all tissues. In classical AIP (95% of cases) the housekeeping and the erythroid-specific enzymes both have half-normal activity in erythroid and non-erythroid tissues, whereas in the variant non-erythroid form of the disease the enzymatic defect is present only in non-erythroid cells. A large allelic heterogeneity of mutations (n>135) has been demonstrated in classical AIP, but to date only three different mutations have been characterized in the non-erythroid variant form of AIP. We describe the molecular abnormalities responsible for the non-erythroid variant form of AIP in two French and two German unrelated AIP patients with normal
PBGD
activity in the erythrocytes. Three different splicing defects located in the intron 1 donor splice site were identified: a 33+1 g-->a mutation, previously described in a Dutch family, was found in two patients; two novel mutations (33+2 t-->a, 33+5 c-->g) affected the two remaining patients. All the mutations resulted in the activation of a
cryptic
splice site 67 bp downstream in intron 1, leading to a frameshift and a premature stop codon in exon 4. Mutations in the exon 1 donor splice site are involved in eight of the nine non-erythroid variant AIP families reported in the literature. These data show that most mutations causing the non-erythroid variant AIP are exon 1 splice defects, in contrast with classical AIP, where missense mutations are chiefly involved. Moreover, the allelic heterogeneity of
PBGD
gene defects causing the non-erythroid variant AIP is demonstrated, with five different mutations identified. These mutations could be easily detected by a single denaturing gradient gel electrophoresis which also allows the presymptomatic detection of gene carriers in the affected families.
...
PMID:Exon 1 donor splice site mutations in the porphobilinogen deaminase gene in the non-erythroid variant form of acute intermittent porphyria. 986 Feb 99
Acute intermittent porphyria (AIP) is an autosomal disorder caused by molecular abnormalities in the
hydroxymethylbilane synthase
(
HMBS
) gene coding for the third enzyme in the heme biosynthetic pathway. So far, more than 160 different mutations responsible for AIP have been identified in this gene. We have now identified seven mutations in eight unrelated Italian patients with AIP: two splicing defects (IVS7+2T-->C, 612G-->T), three small deletions (308-309delTG, 730-731delCT, 182delA) and two missense mutations (134C-->A, 541C-->T). The splicing defects were responsible for activation of splicing
cryptic
sites respectively within intron 7 (15 bp insertion) and exon 10 (9 bp deletion). The small deletions resulted in frameshifts leading to the formation of premature stop codons. The 134C-->A and 541C-->T mutations caused the formation of stop codons likely to be responsible for drastic disruption of the
HMBS
structure (Ser45Ter, Gln181Ter). This is the first molecular study in AIP patients of Italian origin leading to the identification of four new mutations and three molecular defects that have already been described.
...
PMID:Molecular analysis of the hydroxymethylbilane synthase (HMBS) gene in Italian patients with acute intermittent porphyria: report of four novel mutations. 1079 Feb 12
