Nucleotide sequence and genomic organization of a human T lymphocyte serine protease gene

We have determined the nucleotide sequence of 4508 base pairs of human genomic DNA which contain the human serine esterase gene from cytotoxic T lymphocytes (SECT) (equivalent to the 1-3E cDNA clone) and include 879 bp of 5' flanking DNA and 393 bp of 3' flanking DNA. The gene consists of five exons of 88, 148, 136, 261, and 257 nucleotides separated by four introns of 1043, 455, 205, and 643 nucleotides. The location of introns with respect to protein coding sequences in the SECT gene is identical to that of the human cathepsin G and murine granzyme B genes. Comparison of SECT gene exonic sequences to murine granzyme B-F cDNA sequences indicates similarities of 75 and 72% for granzymes B and C and 61, 59, and 61% for granzymes D, E, and F, respectively. The 5' flanking sequence of the SECT gene showed similarity only to the 5' flanking sequence of the murine granzyme B gene, indicating that these genes are homologous. Comparison of the SECT gene sequence to the human cathepsin G sequence indicated no similarity in the 5' flanking DNA although the exonic sequences show 64% sequence similarity overall and 45% sequence similarity in the respective 3' untranslated regions. These similarities suggest that the SECT and cathepsin G genes are members of the same family of serine protease genes. Evidence from high and low stringency Southern transfer analysis of human genomic DNA indicates the presence of another gene of at least 85% sequence similarity to the SECT gene.     

Cloning and expression of murine lymphotoxin cDNA

The murine lymphotoxin (LT) gene has been cloned and used to identify cDNA clones in a library prepared from activated murine T cell mRNA. A recombinant murine genomic library was screened with a human lymphotoxin cDNA probe, resulting in the isolation of the entire LT gene. The murine LT gene structure is similar to the human gene, containing three intervening sequences. An activated murine T cell cDNA library was prepared with poly(A)+ RNA isolated 7 hr after concanavalin A stimulation of an L3T4+ interleukin 2-dependent murine T cell clone. Two colonies of the cDNA library that contained inserts that hybridized with the murine LT gene probe were sequenced and were used to construct expression plasmids. The amino acid sequence deduced from the cDNA indicates that murine LT is highly homologous to human LT (74%) and is related to murine tumor necrosis factor (35% homology). The cDNA was transcribed and was translated in vitro, and was expressed in COS-1 cells. This has resulted in the production of LT biological activity.     

Comparison of nucleotide sequences of mRNAs belonging to the mouse H-2 multigene family

The complete nucleotide sequences of three cDNAs coding for the C-terminal part of mouse histocompatibility (H-2) antigens, and for the 3' non coding regions of these clones have been determined. Comparison of the sequence indicates a large homology throughout the coding and non-coding regions and suggests the existence of a genetic mechanism which homogenizes nucleotide sequences among genes of the H-2 multigene family.     

3D structure modeling of complexes formed by CrmB TNF-binding proteins of Variola and cowpox viruses with murine and human TNFs

Orthopoxviral genomes bear genes for a series of homologous secreted proteins binding tumor necrosis factor (TNF). Orthopoxvirus species have different sets of these proteins. Variola virus has only one protein of this series, CrmB. Although CrmB protein sequences are similar to each other, their physicochemical and biological properties show certain species-specific features. We constructed 3D models of complexes formed by TNF-binding domains of variola and cowpox viruses with murine and human TNFs. We also constructed corresponding models with a mutant human TNF. In this mutant TNF, the arginine residue at position 31 involved in receptor binding was replaced by glutamine, characteristic of murine TNF. Analysis of the models showed that the least stable complex should be that formed by cowpox virus CrmB with human TNF, and the Arg31/Gln substitution should significantly stabilize the interaction between cowpox CrmB and mutant human TNF. Experimental comparison of the abilities of recombinant variola and cowpox CrmB proteins to inhibit the cytotoxic action of TNFs confirmed the predictions.     

Comparison of the expression-linked extra copy (ELC) and basic copy (BC) genes of a trypanosome surface antigen

A recombinant clone of an expression-linked extra copy (ELC) gene of a trypanosome-variable surface glycoprotein was sequenced. In addition the sequences of the corresponding cDNA and portions of the two basic copy genes were determined. Comparison of these sequences reveals that the 5' boundary of the ELC-transposed segment (2.2 kb) occurs within a repetitive sequence about 700 bp upstream from the start codon of the coding sequence. This sequence does not contain internal symmetries and is not homologous with the repetitive sequence at the 3' boundary. The first 35 nucleotides of the cDNA are different than the corresponding ELC sequence and presumably were transcribed from another genomic location. A restriction fragment containing predominantly sequences outside of the 5' boundary hybridizes to a Pst I fragment whose length is variable in different trypanosome clones. This hybridization pattern is similar to that observed using probes for surface glycoprotein genes that are expressed via the nonduplication-associated (NDA) mechanism rather than the ELC mechanism. This indicates that there is a sequence correlation between these two DNA rearrangement mechanism.     

Mechanisms of divergence and convergence of the human immunoglobulin alpha 1 and alpha 2 constant region gene sequences

Nucleotide sequences of the human alpha 1 and two allelic alpha 2 immunoglobulin heavy chain constant region genes are presented. The genes contain three exons, each encoding a single constant region protein domain. The protein hinge region is encoded at the 5' end of the second exon, and the rapid evolutionary changes in length of the hinge correspond to duplications or deletions within the hinge-coding region, probably facilitated by repeats in the DNA sequence. Alignment of the alpha 1 and alpha 2 gene sequences reveals an unusual coupled deletion-duplication in the 5'-flanking region, which can be explained in terms of a slipped-strand mispairing model. Comparison of nucleotide sequences of the alpha 1 gene and two alleles of the alpha 2 gene indicates a localized transfer of genetic information from the 3' end of the alpha 1 gene to one of the alpha 2 alleles, probably by a gene conversion. At one end of the region within which conversion apparently occurred, there is a 40 bp sequence of the type that can form Z-DNA.     

Human growth hormone DNA sequence and mRNA structure: possible alternative splicing.

We have determined the complete sequence of the human growth hormone (hGH) gene and the position of the mature 5' end of the hGH mRNA within the sequence. Comparison of this sequence with that of a cloned hGH cDNA shows that the gene is interrupted by four intervening sequences. S1 mapping shows that one of these intervening sequences has two different 3' splice sites. These alternate splicing pathways generate hGH peptides of different sizes which are found in normal pituitaries. Comparison of sequences near the 5' end of the hGH mRNA with a similar region of the alpha subunit of the human glycoprotein hormones reveals an unexpected region of homology between these otherwise unrelated peptide hormones.     

Isolation and characterization of genomic clones covering the chicken vitellogenin gene

A series of overlapping recombinant clones, which cover the vitellogenin gene, has been isolated from a phage-lambda linked chicken gene library. The DNA of the overlapping clones spans 28 kb of contiguous DNA sequences in the chicken genome. Electron microscopic analysis of hybrids between vitellogenin mRNA and the genomic clones indicates that the chicken vitellogenin gene has a length of approximately 22 kb, about 3.8 times the size of the mRNA. The mRNA sequence is interrupted by at least 33 intervening sequences (introns). Comparison with the vitellogenin gene A2 from Xenopus laevis (Wahli et al., 1980, Cell 20: 107-117) indicates conservation of the number and length of the exons during evolution. Heteroduplex analysis reveals a short stretch of sequence homology between the genes from chicken and frog.     

Cloning of cDNAs encoding human interphotoreceptor retinoid-binding protein (IRBP) and comparison with bovine IRBP sequences

We have determined the sequence of the human interphotoreceptor retinoid-binding protein mRNA from three separately isolated cDNAs. The sequence is 4.28 kb long and encodes a protein of 1247 amino acids (aa) including a putative signal peptide and propeptide. The sequence is shorter (by about 1.67 kb) than the bovine mRNA with the major difference in the lengths located in the 3'-untranslated region. We suggest that this resulted from an insertion in the bovine gene or a large deletion from the human gene. The insertion/deletion is flanked on either side by sequences that are similar in the bovine and human sequences. Like the bovine polypeptide, the deduced protein sequence from the human cDNA contains a fourfold repeat, with each repeat containing about 300 aa. Among the four repeats, the identity is about 30-40%. The identity between the complete bovine and human polypeptide sequences is 84%. The identity between the nucleotide sequences is 83% (excluding the major insertion/deletion). Comparison with the bovine gene indicates that the human sequence may lack about 5-10 bp at the 5' end of the cDNA; it, however, includes a poly(A) tail at the 3' end. Thus, the human sequence is virtually full length, is similar to the bovine sequence, and contains a striking fourfold repeat.     

Plasma cell membrane glycoprotein PC-1. cDNA cloning of the human molecule, amino acid sequence, and chromosomal location

The murine cell membrane glycoprotein PC-1 is a homodimer with restricted tissue distribution, being first characterized in plasma cells. We now describe the isolation of cDNA clones encoding the human homolog of the murine PC-1 protein, its complete amino acid sequence, and its chromosomal location. Overall, the amino acid sequence of the human protein is about 80% identical to the murine protein, although the extent of homology varies in different domains. It had not been possible to assign a definitive amino terminus to the murine protein. Comparison of the murine and human sequence necessitates reassignment of the amino terminus, resulting in a cytoplasmic tail of 24 amino acids rather than 58 amino acids as previously published for the mouse. The sequence of several independently obtained cDNA clones indicates that the 3' end of the mRNA is subject to alternative splicing. Southern blots suggest a single copy gene. In situ chromosomal hybridization localizes the gene for human PC-1 to chromosome 6q22-q23, a common site for deletions in human lymphoid neoplasia.