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Lethal Mutations (lethal + mutation)

Distribution by Scientific Domains
Life Sciences66%

Selected Abstracts

The mouse frizzy mutation (fr) maps between D7Csu5 and D7Mit165

EXPERIMENTAL DERMATOLOGY, Issue 8 2008
Emily L. Paul
Abstract:, We have previously shown that the rat fuzzy and Charles River ,hairless' mutations are defects in the same gene on rat Chr 1, and are likely orthologues of the frizzy mutation (fr) on mouse Chr 7. To test the hypothesis that these variants could result from defects in Fgfr2, we crossed fr/fr mice (from the inbred FS/EiJ strain) with mice that carry a recessive lethal mutation in Fgfr2. Mice inheriting both mutations were phenotypically normal, indicating that fr is not an allele of Fgfr2. To genetically map fr, we crossed these hybrid mice, or F1 mice made by crossing FS/EiJ with the wild-type C57BL/6J or BALB/cBy strains, back to the FS/EiJ strain. The resulting 546 backcross progeny were typed for linked markers to position fr centromeric of Fgfr2, between D7Csu5 and D7Mit165; an interval that contains only 2.7 Mb and fewer than 70 genes. Further characterization of regional recombinants for sequence-level polymorphisms should allow sufficient refinement of fr's location to facilitate an eventual molecular assignment for this classical mutation. [source]

HOW ARE DELETERIOUS MUTATIONS PURGED?

EVOLUTION, Issue 12 2003
DRIFT VERSUS NONRANDOM MATING
Abstract Accumulation of deleterious mutations has important consequences for the evolution of mating systems and the persistence of small populations. It is well established that consanguineous mating can purge a part of the mutation load and that lethal mutations can also be purged in small populations. However, the efficiency of purging in natural populations, due to either consanguineous mating or to reduced population size, has been questioned. Consequences of consanguineous mating systems and small population size are often equated under "inbreeding" because both increase homozygosity, and selection is though to be more efficient against homozygous deleterious alleles. I show that two processes of purging that I call "purging by drift" and "purging by nonrandom mating" have to be distinguished. Conditions under which the two ways of purging are effective are derived. Nonrandom mating can purge deleterious mutations regardless of their dominance level, whereas only highly recessive mutations can be purged by drift. Both types of purging are limited by population size, and sharp thresholds separate domains where purging is either effective or not. The limitations derived here on the efficiency of purging are compatible with some experimental studies. Implications of these results for conservation and evolution of mating systems are discussed. [source]

Cloning of the guanylate kinase homologues AGK-1 and AGK-2 from Arabidopsis thaliana and characterization of AGK-1

FEBS JOURNAL, Issue 2 2000
Vinod Kumar
Guanylate kinase is an essential enzyme for nucleotide metabolism, phosphorylating GMP to GDP or dGMP to dGDP. The low molecular mass cytosolic forms of guanylate kinase are implicated primarily in the regulation of the supply of guanine nucleotides to cell signalling pathways. The high molecular mass and membrane-associated forms of guanylate kinase homologues, notably found in neuronal tissues, are assigned roles in cell junction organization and transmembrane regulation. Here, we describe the first plant guanylate kinase-encoding genes, AGK1 and AGK2, from Arabidopsis thaliana. The nucleotide sequences of their genomic and cDNA clones predict proteins that carry N-terminal and C-terminal extensions of the guanylate kinase-like domain. The amino acid sequences of this domain share 46,52% identity with guanylate kinases from yeast, Escherichia coli, human, mouse and Caenorhabditis elegans. Arabidopsis guanylate kinases (AGKs) exhibit a high degree of conservation of active site residues and sequence motifs in common with other nucleoside monophosphate kinases, which suggests overall structural similarity of the plant proteins. Although bacterially expressed AGK-1 is enzymatically much less active than yeast guanylate kinase, its kinase domain is shown to complement yeast GUK1 recessive lethal mutations. AGKs are expressed ubiquitously in plant tissues with highest transcriptional activity detected in roots. The identification of AGKs provides new perspectives for understanding the role of guanylate kinases in plant cell signalling pathways. [source]

Consortium for osteogenesis imperfecta mutations in the helical domain of type I collagen: regions rich in lethal mutations align with collagen binding sites for integrins and proteoglycans,,

HUMAN MUTATION, Issue 3 2007
Joan C. Marini
Abstract Osteogenesis imperfecta (OI) is a generalized disorder of connective tissue characterized by fragile bones and easy susceptibility to fracture. Most cases of OI are caused by mutations in type I collagen. We have identified and assembled structural mutations in type I collagen genes (COL1A1 and COL1A2, encoding the pro,1(I) and pro,2(I) chains, respectively) that result in OI. Quantitative defects causing type I OI were not included. Of these 832 independent mutations, 682 result in substitution for glycine residues in the triple helical domain of the encoded protein and 150 alter splice sites. Distinct genotype,phenotype relationships emerge for each chain. One-third of the mutations that result in glycine substitutions in ,1(I) are lethal, especially when the substituting residues are charged or have a branched side chain. Substitutions in the first 200 residues are nonlethal and have variable outcome thereafter, unrelated to folding or helix stability domains. Two exclusively lethal regions (helix positions 691,823 and 910,964) align with major ligand binding regions (MLBRs), suggesting crucial interactions of collagen monomers or fibrils with integrins, matrix metalloproteinases (MMPs), fibronectin, and cartilage oligomeric matrix protein (COMP). Mutations in COL1A2 are predominantly nonlethal (80%). Lethal substitutions are located in eight regularly spaced clusters along the chain, supporting a regional model. The lethal regions align with proteoglycan binding sites along the fibril, suggesting a role in fibril,matrix interactions. Recurrences at the same site in ,2(I) are generally concordant for outcome, unlike ,1(I). Splice site mutations comprise 20% of helical mutations identified in OI patients, and may lead to exon skipping, intron inclusion, or the activation of cryptic splice sites. Splice site mutations in COL1A1 are rarely lethal; they often lead to frameshifts and the mild type I phenotype. In ,2(I), lethal exon skipping events are located in the carboxyl half of the chain. Our data on genotype,phenotype relationships indicate that the two collagen chains play very different roles in matrix integrity and that phenotype depends on intracellular and extracellular events. Hum Mutat 28(3), 209,221, 2007. Published 2006 Wiley-Liss, Inc. [source]

Improvement of the sterile insect technique for codling moth Cydia pomonella (Linnaeus) (Lepidoptera Tortricidae) to facilitate expansion of field application

JOURNAL OF APPLIED ENTOMOLOGY, Issue 3 2010
M. J. B. Vreysen
Abstract The codling moth Cydia pomonella (L.) (Lepidoptera Tortricidae) is a key pest of pome fruit (apple, pear and quince) and walnut orchards in most temperate regions of the world. Efforts to control the codling moth in the past mostly relied on the use of broad spectrum insecticide sprays, which has resulted in the development of insecticide resistance, and the disruption of the control of secondary pests. In addition, the frequent reliance and use of these insecticides are a constant threat to the environment and human health. Consequently, there have been increased demands from the growers for the development of codling moth control tactics that are not only effective but also friendly to the environment. In that respect, the sterile insect technique (SIT) and its derivative, inherited sterility (IS), are, together with mating disruption and granulosis virus, among the options that offer great potential as cost-effective additions to available control tactics for integration in area-wide integrated pest-management approaches. In support of the further development of the SIT/IS for codling moth control, the Joint FAO/IAEA Programme of Nuclear Techniques in Food and Agriculture implemented a 5-year Coordinated Research Project (CRP) entitled ,Improvement of codling moth SIT to facilitate expansion of field application'. Research focussed on sterile codling moth quality and management (e.g. mobility and life-history traits in relation to rearing strategy, dispersal, flight ability, radiosensitivity and mating compatibility) and a better understanding of the basic genetics of codling moth to assist the development of genetic sexing strains (e.g. cytogenetics, the development of dominant conditional lethal mutations, molecular characterization of the sex chromosomes, sex identification in embryos and cytogenetic markers). The results of the CRP are presented in this special issue. [source]

The evolution of self-fertilization and inbreeding depression under pollen discounting and pollen limitation

JOURNAL OF EVOLUTIONARY BIOLOGY, Issue 3 2005
E. PORCHER
Abstract We model the evolution of plant mating systems under the joint effects of pollen discounting and pollen limitation, using a dynamic model of inbreeding depression, allowing for partial purging of recessive lethal mutations by selfing. Stable mixed mating systems occur for a wide range of parameter values with pollen discounting alone. However, when typical levels of pollen limitation are combined with pollen discounting, stable selfing rates are always high but less than 1 (0.9 < s < 1 in most cases); in this situation, complete selfing does not evolve because pollen discounting becomes very large at high selfing rates, so that the automatic advantage of selfing changes to a disadvantage. These results suggest that mixed mating systems with high selfing rates can be maintained by selection, whereas mixed mating systems with low to moderate selfing rates are more likely attributable to unavoidable geitonogamous selfing. [source]