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We have determined the nucleotide sequence of a 7 kb (1 kb = 10(3) base-pairs) region that includes the entire small single-copy region (SSC) of the plastid genome of Epifagus virginiana, a non-photosynthetic, parasitic flowering plant. The SSC (4.8 kb) is considerably smaller than those of photosynthetic plants due to the complete deletion of all photosynthetic, chlororespiratory and ribosomal protein genes. This leaves only two genes: a protein gene of 1738 codons whose product is unlikely to be involved in bioenergetic processes and a leucine tRNA gene (trn(LUAG)). Both genes span junctions between the inverted repeat and the SSC, with the consequence that the terminal 20 base-pairs of the repeat is transcribed in both directions and functions both as the 3' end of the tRNA gene and as an internal segment of orf1738. We find that the region of tobacco plastid DNA homologous to Epifagus orf1738 contains a single open reading frame (ORF) of 1901 codons rather than the three ORFs of 1244, 273 and 228 codons originally reported. However, we confirm that the equivalent region of the bryophyte Marchantia contains two genes (1068 and 464 codons) corresponding to the N and C-terminal portions of the dicot protein. In contrast, rice plastid DNA contains a severely truncated pseudogene at this locus.
J Mol Biol 1992 Jan 05
PMID:Small single-copy region of plastid DNA in the non-photosynthetic angiosperm Epifagus virginiana contains only two genes. Differences among dicots, monocots and bryophytes in gene organization at a non-bioenergetic locus. 173 Oct 88

In placental mammals, the class II region of the major histocompatibility complex (Mhc) consists of several gene families which show orthologous relationships in the different species. As these families are not orthologous with the Mhc class II beta-chain-encoding gene families of birds, the different mammalian families must have diverged after the separation of birds and mammals approximately 250 Mya but before the radiation of placental mammals (60-80 Mya). To obtain further information about the origin of the class II genes in mammals, we studied the beta-chain-encoding genes of the wallaby as a representative of marsupials, which split from placental mammals approximately 125 Mya. Three beta-chain-encoding genes were isolated from a red-necked wallaby (Macropus rufogriseus) cDNA library by using a chimpanzee DRB probe, and their nucleotide sequences were determined. The genes are not orthologous to any of the genes in mammals studied thus far but belong to two new families which we designated Maru-DAB and Maru-DBB. One of the three sequences (DAB2) seems to be derived from a transcribed pseudogene; it lacks the codons specifying the first 51 amino acid residues of the beta 2 domain. The fact that the DAB and DBB families have thus far not been found in placental mammals and that none of the DOB, DPB, DQB, or DRB genes seems to be expressed in the one representative marsupial species can be interpreted as suggesting that class II gene families of eutherian and metatherian mammals evolved from different ancestral genes.
Mol Biol Evol 1991 Nov
PMID:MHC class II genes of a marsupial, the red-necked wallaby (Macropus rufogriseus): identification of new gene families. 177 63

Members of species of the mulleri and hydei subgroups of the repleta group of Drosophila have duplicate Adh genes. The Adh regions of D. mojavensis, D. mulleri, and D. hydei contain three genes--a pseudogene, Adh-2, and Adh-1--arranged 5' to 3'. To understand the evolution of the triplicate Adh structure, we have cloned and sequenced the Adh locus of D. mettleri. This region consists of a 5' pseudogene and a 3' functional Adh gene. On the basis of the structure and nucleotide sequence comparisons of Adh genes of D. mettleri and other species, we propose that an initial duplication of the ancestral Adh gene generated two Adh genes arranged in tandem. The more 5' Adh gene became a pseudogene, while the more 3' gene remained functional through all the developmental stages. A second duplication of this 3' gene resulted in Adh regions with three genes--a pseudogene, Adh-2, and Adh-1.
Mol Biol Evol 1991 Nov
PMID:The structure of the Adh locus of Drosophila mettleri: an intermediate in the evolution of the Adh locus in the repleta group of Drosophila. 177 67

Ovine trophoblast protein (oTP) is a polypeptide secreted by ovine trophectoderm from day 11 to 21, which plays a key role in maternal recognition of pregnancy. Structural analyses established that oTP shares extensive homology with class II alpha-interferon (IFN-alpha II) subfamily. Previous screening of an ovine genomic DNA library probed with an oTP cDNA incidently resulted in the isolation of a functional IFN-alpha II gene and two relevant pseudogenes, as shown by sequence analysis and study of expression in eukaryotic COS cells. The expected oTP gene together with a cognate pseudogene was successfully isolated from the series of clones selected from another genomic library probed with the oTP cDNA, using two specific oligonucleotides, each one complementary to a region of oTP cDNA with little homology with the IFN-alpha II gene and related pseudogenes. Southern blotting of ovine genomic DNA indicated the existence of at least five trophoblast IFN-alpha genes or pseudogenes. Nucleotide sequence comparisons showed that the oTP gene exhibits a higher homology (90%) with bovine trophoblast IFN gene (Stewart et al. (1990) J. Mol. Endocrinol. 4, 275-282) than with oIFN-alpha II gene (70%), thus providing evidence that embryonic IFNs constitute a distinct subfamily of IFN-alpha s.
Mol Cell Endocrinol 1991 Apr
PMID:Cloning and structural analysis of two distinct families of ovine interferon-alpha genes encoding functional class II and trophoblast (oTP) alpha-interferons. 182 Sep 71

SP-A is the most abundant, surfactant-associated protein isolated from lung lavage. Genomic blot analysis of total human cellular DNA with SP-A cDNA demonstrated the presence of multiple hybridizing fragments that are not accounted for by available SP-A gene sequences. In this report, we have cloned and characterized human genomic DNA fragments that account for some of the other hybridizing fragments. These clones contain nucleotide sequences that are highly homologous to the fourth intron and fifth exon of the human SP-A gene. Sequences upstream from these SP-A-like sequences are not detectable by Northern blot hybridization of SP-A-expressing cells and the SP-A-like sequences contain premature stop codons, consistent with the interpretation that these clones represent an SP-A pseudogene. Restriction fragments consistent with this pseudogene and the functional SP-A gene are present in a human chromosome 10 genomic library made from a single chromosome, showing that the functional SP-A gene and the pseudogene are syntenic.
Am J Respir Cell Mol Biol 1991 May
PMID:A portion of the human surfactant protein A (SP-A) gene locus consists of a pseudogene. 182 27

A segment of DNA was amplified from the Neurospora crassa genome by the polymerase chain reaction using several oligonucleotides coding for highly conserved domains in proinsulin as primers and probe. A genomic clone corresponding to this segment was isolated and the nucleotide sequence was determined. The deduced amino acid sequence of a part of this segment bears remarkable resemblance to preproinsulin, but lacks several requirements for transcription or translation and must therefore be considered to be a pseudogene.
Mol Cell Endocrinol 1991 Dec
PMID:A preproinsulin-like pseudogene from Neurospora crassa. 183 93

Gap junctions are widely distributed structures that mediate communication between cells. The channels that allow passage of small molecules between adjacent cells are made up of oligomeric proteins (connexins) that are encoded by a family of related genes. By probing somatic cell hybrid DNA on Southern filters with rat or human cDNAs or human genomic fragments, we have mapped four functioning gap junction genes, (alpha 1, beta 1, beta 2, and alpha 3), to different sites on human chromosomes: GJA1 (connexin43) to 6p21.1-q24.1; GJB1 (connexin32) to Xcen-q22; GJB2 (connexin26) to 13; and GJA3 (connexin46) also to 13, probably near GJB2. The GJA3 probe also hybridized to a restriction fragment that was mapped to chromosome 1. A GJA1-related pseudogene GJA1P was assigned to chromosome 5. The homologous loci in mouse were assigned to regions of known conserved syntenic groups: Gja-1 to chromosome 10; Gjb-1 to XD-F4 and Gjb-2 to 14. Of two sites of hybridization with the GJA3 probe, on mouse 14 and 5, we assume that the site on 14 corresponds to the GJA3 locus on human 13. Based on these data, additional members of this family of related genes can be isolated and characterized, and possible human and mouse mutations can be identified.
Somat Cell Mol Genet 1991 Mar
PMID:Distribution of genes for gap junction membrane channel proteins on human and mouse chromosomes. 184 21

A molecular clock analysis was carried out on the nucleotide sequences of parts of the major noncoding region of mitochondrial DNA (mtDNA) from the major geographic populations of humans. Dates of branchings in the mtDNA tree among humans were estimated with an improved maximum likelihood method. Two species of chimpanzees were used as an outgroup, and the mtDNA clock was calibrated by assuming that the chimpanzee/human split occurred 4 million years ago, following our earlier works. A model of homogeneous evolution among sites does not fit well with the data even within hypervariable segments, and hence an additional parameter that represents a proportion of variable sites was introduced. Taking account of this heterogeneity among sites, the date for the deepest root of the mtDNA tree among humans was estimated to be 280,000 +/- 50,000 years old (+/- 1 SE), although there remains uncertainty about the constancy of the evolutionary rate among lineages. The evolutionary rate of the most rapidly evolving sites in mtDNA was estimated to be more than 100 times greater than that of a nuclear pseudogene.
J Mol Evol 1991 Jan
PMID:Time of the deepest root for polymorphism in human mitochondrial DNA. 190 67

The gene encoding steroid 21-hydroxylase activity, P450c21B, is located in the major histocompatibility complex (MHC) class III region, in close proximity to a highly homologous pseudogene, P450c21A. Recombinations between P450c21B and P450c21A have been shown to result in deficiency of 21-hydroxylase activity, the usual cause of congenital adrenal hyperplasia (CAH). A mutant P450c21 gene from a patient with simple virilizing CAH was identified and shown to be consistent with a recombination between P450c21A and P450c21B. Sequence analysis of the mutant gene showed the recombination site to be located between the first exon and the second intron. The mutant gene encodes a leucine instead of the normal proline at codon 31. This mutation resides on a chromosome bearing the HLA-B44 serotype. A comparison of mutations associated with HLA-B44 and that normally found with the HLA-Bw47 serotype suggests that the HLA-B44 mutations are of more ancient origin. The patient's homologous chromosome has a deletion of P450c21B. Endocrinological testing therefore allows for testing of the mutant gene in genetic isolation. Such testing demonstrated that the patient was capable of producing aldosterone and retaining sodium in response to a low-sodium diet, indicating that the mutant gene encodes an enzyme with partial 21-hydroxylase activity.
J Steroid Biochem Mol Biol 1991 Jun
PMID:Molecular and endocrine characterization of a mutation involving a recombination between the steroid 21-hydroxylase functional gene and pseudogene. 190 48

Poplar trees have at least two different chitinase genes, win6 and win8, which are systemically wound-inducible and belong to multigene families [Proc Natl Acad Sci USA 86: 7895-7899]. On one genomic clone that we have partially sequenced, there are three win6 genes which are transcriptionally oriented in the same direction. Between two of the win6 genes is a gene that we have designated chitinase X (chiX), which appears to be a pseudogene belonging to a multigene family distinct from win6 and win8. The win6 and chiX genes we have sequenced contain two AT-rich introns that correspond in location to those in a basic chitinase gene from tobacco. The predicted Win6 proteins have a putative signal peptide, a cysteine-rich 'hevein' domain, a hinge region, and a catalytic domain as described in Shinshi et al. [Plant Mol Biol 14: 357-368]. The predicted Win8 protein, by contrast, completely lacks a hinge region. Both Win6 and Win8 are expected to be highly acidic (with a calculated net charge of -15 to -17), whereas ChiX proteins are likely to be basic. Based on an inferred phylogeny, the catalytic domain of ChiX is more closely related to the basic chitinases of herbaceous plants than are either Win6 or Win8.
Plant Mol Biol 1991 Oct
PMID:Populus chitinase genes: structure, organization, and similarity of translated sequences to herbaceous plant chitinases. 191 89

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