Gene structure of human and mouse methylenetetrahydrofolate reductase (MTHFR)

Methylenetetrahydrofolate reductase (MTHFR) catalyzes the conversion of 5,10-methylenetetrahydrofolate to 5-methyltetrahydrofolate, a co-substrate for homocysteine remethylation to methionine. A human cDNA for MTHFR, 2.2 kb in length, has been expressed and shown to result in a catalytically active enzyme of approximately 70 kDa. Fifteen mutations have been identified in the MTHFR gene: 14 rare mutations associated with severe enzymatic deficiency and 1 common variant associated with a milder deficiency. The common polymorphism has been implicated in three multifactorial diseases: occlusive vascular disease, neural tube defects, and colon cancer. The human gene has been mapped to chromosomal region 1p36.3 while the mouse gene has been localized to distal Chromosome (Chr) 4. Here we report the isolation and characterization of the human and mouse genes for MTHFR. A human genomic clone (17 kb) was found to contain the entire cDNA sequence of 2.2 kb; there were 11 exons ranging in size from 102 bp to 432 bp. Intron sizes ranged from 250 bp to 1.5 kb with one exception of 4.2 kb. The mouse genomic clones (19 kb) start 7 kb 5′ exon 1 and extend to the end of the coding sequence. The mouse amino acid sequence is approximately 90% identical to the corresponding human sequence. The exon sizes, locations of intronic boundaries, and intron sizes are also quite similar between the two species. The availability of human genomic clones has been useful in designing primers for exon amplification and mutation detection. The mouse genomic clones will be helpful in designing constructs for gene targeting and generation of mouse models for MTHFR deficiency. Received: 28 January 1998 / Accepted: 9 April 1998     

人类PKNOX1基因一种新剪接型全长cDNA的克隆与表达分析

为了寻找新的Down’s综合征相关基因,利用生物信息学分析与实验技术相结合的方法,从定位于Down’s综合征关键区内(21q22．3)的EST(GenBank登录号H77399)出发,从人类睾丸组织cDNA文库内克隆到含同源盒结构域转录因子PKNOX1的一种新剪接型全长cDNA,命名为PKNOX1B,GenBank登陆号AYl42115。PKNOX1B基因跨越58．4kb,全长cDNA约2．8kb,有11个外显子和10个内含子,编码405个氨基酸残基的酸性蛋白质,分子量为44．628kDa,等电点6．28。PKNOX1B与PKNOX1的前9个外显子及9个内含子完全相同,由于PKNOX1B在第10与11外显子之间发生了差异剪接,以致其在3’端cDNA序列被截短约2kb,所编码的蛋白质在C端较PKNOX1短30个氨基酸残基。但PKNOX1B保留了与PKNOX1完全相同的同源盒结构域,因而它可能与其他含同源盒结构域基因家族成员一样参与了发育的遗传调控。RT-PCR结果显示PKNOX1B除骨髓组织外在人体组织广泛表达。在睾丸组织中PKNOX1可见5kb,2．9kb,2kb 3种转录本,而在其他组织中仅发现2个较大的转录本,2kb的转录本在睾丸组织呈现特异性的表达,它有可能参与了精子的发生过程。     

An mRNA from human brain encodes an isoform of the B subunit of the vacuolar H(+)-ATPase

The B subunit (approximately 60 kDa) of the vacuolar H(+)-ATPase is one of the two major subunits comprising the hydrophilic catalytic complex of the enzyme. Using left and catalytic complex of the enzyme. Using left and right primers which bind two highly conserved sequences of the B subunit, an 836-base pair fragment was amplified from human brain cDNA by the polymerase chain reaction. The amplified fragment was used to probe a Northern blot and to screen a brain cDNA library. A single RNA band, 3.2 kilobases (kb) in length, was detected on Northern blots. A positive cDNA clone containing a 2.5-kb insert was isolated and sequenced. It included a long 3'-untranslated region (greater than 1.2 kb) and was missing a minor portion of the 5'-end of the coding region. The coding region of the brain cDNA sequence was 77% identical at the nucleotide level and 90% identical at the amino acid level to the previously reported sequence for the B subunit of the vacuolar H(+)-ATPase from human kidney (Sudhof, T. C., Fried, V. A., Stone, D. K., Johnston, P. A., and Xie, X.-S. (1989) Proc. Natl. Acad. Sci, U. S. A. 86, 6067-6071). Within the coding region of the brain cDNA, which is 6 amino acid residues shorter at the 3'-end than the kidney sequence, an 11% difference in the GC content was calculated. The 3'-noncoding sequence of the brain cDNA was completely unrelated to that of kidney and was three times longer. We conclude that the B subunit cDNAs from human kidney and brain represent different isoforms. This is the first demonstration of an isoform of a vacuolar H(+)-ATPase subunit.     

cDNA cloning, genomic organization and expression of the novel human metallophosphoesterase gene MPPE1 on chromosome 18p11.2

We have isolated a 1,926-bp cDNA that encodes a novel polypeptide of 396 amino acid residues with a calculated molecular mass of 45.2 kDa. This MPPE1 polypeptide consists of a predicted signal sequence of 45 residues at the N-terminus, a 240-amino acid metallo-phosphoesterase domain, and a 24-amino acid transmembrane domain at the C-terminus. The genomic organization of the human MPPE1 gene proved to consist of 14 exons and to span about 27 kb. The gene was located on chromosome 18p11.2, adjacent to the G protein Golf alpha gene (GNAL), in tail-to-tail orientation, partially overlapping with the 3' UTR of the latter gene. MPPE1 is expressed as an mRNA of 2.2 kb in the brain, but not in any other tissues studied here. 3' RACE analysis defined a single functional polyadenylation site within the 3' UTR of the GNAL gene, while RT-PCR analysis revealed an alternatively spliced form of MPPE1, which included an additional exon located within the last intron. The alternatively spliced form encoded a truncated variant of MPPE1 with a calculated molecular mass of 38.8 kDa that lacks the C-terminal transmembrane domain.     

A novel human cytochrome P450 4F isoform (CYP4F11): cDNA cloning, expression, and genomic structural characterization

By a combination of cDNA library screening and rapid amplification of cDNA ends analysis, a novel human cytochrome P450 4F isoform has been cloned and sequenced. The new 4F isoform is designated CYP4F11 and contains 1765 nucleotides. The coding region encodes 524 amino acid residues, and the heme-binding region is highly conserved. The CYP4F11 amino acid sequence has 80.0, 82.3, and 79.2% identity to CYP4F2, CYP4F3, and CYP4F8 amino acid sequences, respectively. In vitro translation shows the molecular mass of CYP4F11 is approximately 57 kDa, consistent with the calculated molecular mass. CYP4F11 is expressed mainly in human liver, followed by kidney, heart, and skeletal muscle. The genomic structure of CYP4F11 was solved by database searching and computer analysis. The coding region of CYP4F11 has 12 exons. The CYP4F11 gene is located 16 kb upstream of the CYP4F2 gene on chromosome 19. This is consistent with the notion that the human cytochrome P450 4F genes form a cluster on chromosome 19.