Two SP-C genes encoding human pulmonary surfactant proteolipid.

Human pulmonary surfactant proteolipid of Mr = 5,000, now termed surfactant protein C (SP-C), is produced by proteolytic processing of an Mr = 22,000 precursor. The active hydrophobic peptide imparts surface active properties to pulmonary surfactant phospholipids. We have determined the entire nucleotide sequence of two distinct genes encoding SP-C from a genomic library prepared from human leukocytes. SP-C genes were encoded by approximately 3.0 kilobase pairs of DNA containing six exons and five introns. In both genes, the active hydrophobic region of the polypeptide was located in the second exon that encodes a peptide of 53 amino acids. The entire nucleotide sequences of the two classes of SP-C genes differed by only 1%. Two cDNAs encoding SP-C were distinguished on the basis of an 18-nucleotide deletion at the beginning of the fifth exon; no such deletion was detected within the two classes of SP-C genes. Comparison of the 3'-untranslated regions of SP-C cDNA clones and the two classes of genomic clones demonstrated that cDNAs with and without the 18-base pair deletion could be derived from both of the genes. This 18-base pair deletion occurs in nucleotide sequences compatible with two distinct RNA splice sites. One additional cDNA clone showed the addition of an 8-base pair insert at the end of exon 5, which was also compatible with two distinct splice sites. Both classes of SP-C genes were represented by cDNAs, demonstrating that both classes of genes are actively transcribed. The two SP-C genes were readily distinguished on the basis of their nucleotide sequences and restriction fragment analyses of their flanking DNA. Two distinct classes of human SP-C genes are transcribed, and the heterogeneity in the SP-C RNAs appears to result from differential splicing.

Mutations in the human adenosine deaminase gene that affect protein structure and RNA splicing.

Adenosine deaminase (ADA; adenosine aminohydrolase, EC 3.5.4.4) deficiency is one cause of the genetic disease severe combined immunodeficiency. To identify mutations responsible for ADA deficiency, we synthesized cDNAs to ADA mRNAs from two cell lines, GM2756 and GM2825A, derived from ADA-deficient immunodeficient patients. Sequence analysis of GM2756 cDNA clones revealed a different point mutation in each allele that causes amino acid changes of alanine to valine and arginine to histidine. One allele of GM2825A also has a point mutation that causes an alanine to valine substitution. The other allele of GM2825A was found to produce an mRNA in which exon 4 had been spliced out but had no other detrimental mutations. S1 nuclease mapping of GM2825A mRNAs showed equal abundance of the full-length ADA mRNA and the ADA mRNA that was missing exon 4. Several of the ADA cDNA clones extended 5' of the major initiation start site, indicating multiple start sites for ADA transcription. The point mutations in GM2756 and GM2825A and the absence of exon 4 in GM2825A appear to be directly responsible for the ADA deficiency. Comparison of a number of normal and mutant ADA cDNA sequences showed a number of changes in the third base of codons. These changes do not affect the amino acid sequence. Analyses of ADA cDNAs from different cell lines detected aberrant RNA species that either included intron 7 or excluded exon 7. Their presence is a result of aberrant splicing of pre-mRNAs and is not related to mutations that cause ADA deficiency.

Complete sequence and structure of the gene for human adenosine deaminase.

The nucleotide sequence of the human adenosine deaminase gene was determined. The gene was isolated in a series of overlapping lambda phage clones containing human germ line DNA. A total of 36,741 base pairs were sequenced, including 32,040 base pairs from the transcription initiation site to the polyadenylation site, 3935 base pairs of 5'-flanking DNA, and 766 base pairs of 3'-flanking DNA. The gene contains 12 exons separated by 11 introns. The exons range in size from 62 to 325 base pairs while the introns are 76-15 166 base pairs in size. The area sequenced contains 23 copies of Alu repetitive DNA and a single copy of an "O" family repeat. All but one of these repeat sequences are located in the first three introns or the 5'-flanking region. The apparent promoter region of the gene lacks the "TATA" and "CAAT" sequences often found in eucaryotic promoters and is extremely G/C rich. Contained within this region are areas homologous to other G/C-rich promoters, including six decanucleotide sequences that are highly homologous to sequences identified as functional binding sites for transcription factor Sp1.