Meiotic instability of chicken ultra-long telomeres and mapping of a 2.8 megabase array to the W-sex chromosome.

The objective of this research was to study the meiotic stability of a subset of chicken telomere arrays, which are the largest reported for any vertebrate species. Inheritance of these ultra-long telomere arrays (200 kb to 3 mb) was studied in a highly homozygous inbred line, UCD 003 (F >or= 99.9). Analysis of array transmission in four families indicated unexpected heterogeneity and non-Mendelian segregation including high-frequency-generation of novel arrays. Additionally, the largest array detected (2.8 Mb) was female-specific and correlated to the most intense telomeric DNA signal on the W-sex chromosome by fluorescence in situ hybridization (FISH). These results are discussed in regard to the potential functions of the ultra-long telomere arrays in the chicken genome including generation of genetic variation through enhanced recombination, protection against erosion by providing a buffer for gene-dense regions, and sex-chromosome organization.

Molecular tracking of mountain lions in the Yosemite valley region in California: genetic analysis using microsatellites and faecal DNA.

Twelve microsatellite loci were characterized in California mountain lions (Puma concolor) and sufficient polymorphism was found to uniquely genotype 62 animals sampled at necropsy. Microsatellite genotypes obtained using mountain lion faecal DNA matched those from muscle for all of 15 individuals examined. DNA from potential prey species and animals whose faeces could be misidentified as mountain lion faeces were reliably distinguished from mountain lions using this microsatellite panel. In a field application of this technique, 32 faecal samples were collected from hiking trails in the Yosemite Valley region where seven mountain lions previously had been captured, sampled, and released. Twelve samples yielded characteristic mountain lion genotypes, three displayed bobcat-type genotypes, and 17 did not amplify. The genotype of one of the 12 mountain lion faecal samples was identical to one of the mountain lions that previously had been captured. Three of the 12 faecal samples yielded identical genotypes, and eight new genotypes were detected in the remaining samples. This analysis provided a minimum estimate of 16 mountain lions (seven identified by capture and nine identified by faecal DNA) living in or travelling through Yosemite Valley from March 1997 to August 1998. Match probabilities (probabilities that identical DNA genotypes would be drawn at random a second time from the population) indicated that the samples with identical genotypes probably came from the same mountain lion. Our results demonstrate that faecal DNA analysis is an effective method for detecting and identifying individual mountain lions.

The Ac-st2 element of maize exhibits a positive dosage effect and epigenetic regulation.

A novel derivative of the maize transposable element Ac, termed Ac-st2, that displays a positive dosage effect in maize has been identified. Although identical in sequence to other Ac elements, increasing the copy number of the element in the endosperm results in earlier and more frequent Ds excision. Ac-st2 autonomously transposes and catalyzes somatic excision of Ds elements. Germinal transpositions of either Ac-st2 or Ds, however, were not observed. The Ac-st2 phenotype includes a reduction in Ac transcript accumulation that is associated with increased methylation at specific sites in the promoter region of the major transcriptional start site within Ac (ORFa). This element differs from metastable (cycling) Ac derivatives in that Ac-st2 conditions a uniform transposition pattern throughout endosperm and plant development. Ac-st2 undergoes frequent increases in activity after its association with an active Ac element. This change in activity correlates with reduced levels of methylation in the ORFa promoter region. Using a competitive PCR assay, Ac transcript accumulation was followed through endosperm development. From these data, a model is proposed to explain the patterns of variegation associated with both "wild type" active Ac and Ac-st2 elements.

Unusual evolution of a superoxide dismutase-like gene from the extremely halophilic archaebacterium Halobacterium cutirubrum.

The archaebacterium Halobacterium cutirubrum contains a single detectable, Mn-containing superoxide dismutase, which is encoded by the sod gene (B. P. May and P. P. Dennis, J. Biol. Chem. 264:12253-12258, 1989). The genome of H. cutirubrum also contains a closely related sod-like gene (slg) of unknown function that has a pattern of expression different from that of sod. The four amino acid residues that bind the Mn atom are conserved, but the flanking regions of the two genes are unrelated. Although the genes have 87% nucleotide sequence identity, the proteins they encode have only 83% amino acid sequence identity. Mutations occur randomly at the first, second, and third codon positions, and transversions outnumber transitions. Most of the mutational differences between the two genes are confined to two limited regions; other regions totally lack differences. These two gene sequences are apparently in the initial stage of divergent evolution. Presumably, this divergence is being driven by strong selection at the molecular level for either acquisition of new functions or partition and refinement of ancestral functions in one or both of the respective gene products.

Evolution and regulation of the gene encoding superoxide dismutase from the archaebacterium Halobacterium cutirubrum.

The gene encoding the manganese-containing superoxide dismutase (SOD) of Halobacterium cutirubrum was isolated and characterized. The gene and 5'- and 3'-untranslated regions were located on a genomic DNA fragment of 1127 nucleotides. The deduced amino acid sequence is 200 residues long and has 39-42% identity with manganese-containing SODs of eubacteria and mitochondria. This homology may be due to either lateral transfer of the gene between eubacteria and archaebacteria or to high amino acid sequence conservation in the enzyme during the separate evolution of eubacteria and archaebacteria. Transcription of the gene initiates only about three nucleotides upstream of the translation initiation codon. The 5' end of the transcript does not contain a purine-rich Shine-Dalgarno sequence, and the promoter region does not contain consensus sequences found in other archaebacterial promoters. Termination of transcription occurs at 5 consecutive thymine residues that are preceded by a GC-rich region. The gene is basally expressed in anaerobically grown cells but is also inducible by paraquat, a generator of oxygen radicals. The same transcription initiation site is used in both types of expression, suggesting that one promoter is responsible for both basal and regulated expression. In addition to the single copy of the authentic SOD gene, the genome of H. cutirubrum contains a sequence that is very closely related to but does not code for the previously purified SOD of this organism.

The expression of the superoxide dismutase gene in Halobacterium cutirubrum and Halobacterium volcanii.

The gene encoding the Mn-containing superoxide dismutase (SOD) from Halobacterium cutirubrum has been cloned and sequenced. The deduced amino acid sequence is homologous to the sequences of Fe and Mn SODs from eubacteria. The high degree of amino acid identity between the archaebacterial and eubacterial proteins suggests that a SOD gene may have been laterally transferred between eubacteria and archaebacteria sometime after the accumulation of atmospheric oxygen. Consensus elements of halobacterial promoters are found upstream of the coding region, however, the spacing between them and the transcription start site is greater than in other genes. Termination of transcription occurs in five consecutive T residues that are preceded by a GC-rich sequence that has short inverted repeats. In addition to the authentic SOD gene, H. cutirubrum also contains a putative pseudogene. The SOD levels and growth rates of H. cutirubrum and Halobacterium volcanii were tested in response to treatment by paraquat, an intracellular generator of superoxide. In H. volcanii the growth rate slowed, and SOD was strongly induced throughout prolonged treatment with paraquat. In H. cutirubrum the same effects were noticed initially, but after 48 h exposure to the drug, the growth rate increased and the SOD level decreased. Production of paraquat resistant mutants of H. cutirubrum may play a part in this process, however, some type of physiological adaptation is also probably required.

Genetic diversity in Cucumis sativus L. assessed by variation at 18 allozyme coding loci.

The genetic diversity of the U.S. Cucumis sativus L. germplasm collection [757 plant introductions (PI) representing 45 countries] was assessed using 40 enzymes which represented 74 biochemical loci. Polymorphisms were observed at 18 loci (G2dh-1, Gpi-1, Gpi-2, Gr-1, Gr-2, Idh, Mdh-1, Mdh-2, Mdh-3, Mpi-2, Pepla-2, Peppap-2, Per-4, Pgd-1, Pgd-2, Pgm-1, Pgm-3, and Skdh). Two PIs (285606 and 215589) contained alleles [G2dh-1(1) and Per-4(2), respectively] which did not occur in any other PI. Other alleles which occurred in low frequencies (in < 1% of the PIs) included Gpi-1(3), Gpi-2(3), Gr-1(3), Gr-2(1), Idh(1), Mdh-1(2), Mdh-2(1), Peppap-2(1), and Pgd-1(1). Individual loci containing more than one allele in greater than 20% of the PIs included Mpi-2, Pepla-2, Pgd-2, and Pgm-1. Multivariate analyses aided in the reduction of data (principle components), depicted relationships among PIs (cluster), and identified the most discriminating enzyme loci (Pgm-1, Pepla-2, Gr-1, Pgd-2, Mpi-2, and Skdh) (classification and regression tree).

Superoxide dismutase from the extremely halophilic archaebacterium Halobacterium cutirubrum.

Halobacterium cutirubrum, a member of the archaebacteria, contains one superoxide dismutase (EC 1.15.1.1). This enzyme functions in the high-ionic-strength intracellular environment and protects the organism against the toxic effects of the superoxide anion. The enzyme has been purified to about 90% homogeneity by a four-step procedure which never removes it from conditions of high ionic strength. The subunits of the purified enzyme have a molecular weight of 25,000 and are possibly in tetrameric association. The enzyme shows anomalously high resistance to azide inhibition and sensitivity to inactivation by hydrogen peroxide. Metal analysis indicates 0.2 atom of Mn, less than 0.03 atom of Cu, and less than 0.001 atom of Fe per subunit. The low content of Mn may explain the low specific activity found for this enzyme compared with that of eubacterial enzymes. Optimum activity occurs in 2 M KCl; KCl gives about twice as much activity as NaCl over the range of 2 to 4 M. The enzyme appears to be related to those isolated from other archaebacteria but also exhibits several novel features.