Mendelian Manner (mendelian + manner)

Distribution by Scientific Domains


Selected Abstracts


Variable number of tandem repeats in the growth hormone gene of Sparus aurata: association with growth and effect on gene transcription

JOURNAL OF FISH BIOLOGY, Issue 2004
R. Almuly
The GH gene of Sparus aurata(saGH) contains variable number of tandem repeats (VNTR). The hyper-variable minisatellites in the first and third introns segregate in a Mendelian manner and exhibit numerous alleles. Analysis by PCR and sequencing of the two introns in several wild Sparidae species revealed comparable minisatellites with some variations. ,Zoo blot' with the first intron unit as a probe showed this sequence to be characteristic of several families from the Perciformes order. Unexpectedly, a similar minisatellite was found in the first intron of the GH gene in flounder, which belongs to a different order. Transfection of constructs containing a reporter gene and first intron of different length to four cell lines resulted in an inhibitory effect of the longer intron relative to the short intron. A (CA)n microsatellite (saGHpCA) is found in the GH promoter. A similar repeat at the same location is present in GH promoters of several other fish species. High variability (11 alleles) of the saGHpCA was found in a hatchery population. Full-sib family genotyping showed a Mendelian inheritance of these alleles. A significant association was found between allele distribution and body mass in large and average size fishes from a hatchery population. The intron minisatellites may serve as markers for hybrid population and parental assignment. Its presence in families and orders of the higher teleosts may help solving classification uncertainties. Their conservation and inhibitory effect suggest a biological role. The saGHpCA is correlated with growth and may be a good candidate for predicting growth performance. [source]


Isolation and characterization of polymorphic microsatellite DNA markers in the brown sole, Pleuronectes herzensteini

MOLECULAR ECOLOGY RESOURCES, Issue 1 2007
S. G. KIM
Abstract New microsatellite DNA markers from brown sole were developed and characterized. Fourteen primer sets were designed from 40 microsatellite regions. Eight of 14 loci exhibited variations comprising 8,31 alleles. Observed and expected heterozygosities ranged from 0.611 to 0.833 and from 0.647 to 0.968 among 36 individuals, respectively. Phz3, Phz8 and Phz12 significantly deviated from Hardy,Weinberg equilibrium, and there was a significant linkage disequilibrium between Phz2 and Phz12. Seven of eight loci conformed to the Mendelian manner of inheritance in a full-sib family. Seven to four loci of three related species were cross-amplified by primers for brown sole. [source]


Identification and characterization of microsatellites in eggplant

PLANT BREEDING, Issue 3 2003
T. Nunome
Abstract The potential of microsatellite markers for use in genetic studies in eggplant, Solanum melongena, has been evaluated. A genomic library of eggplant was screened for GA and GT repeat motifs to isolate microsatellite clones. The frequency of each repeat motif in the eggplant genome was found to be every 3200 kb for GA repeats and every 820 kb for GT repeats. Sixty-one per cent of GT repeats were found to directly flank AT repeats. A total of 37 polymerase chain reaction (PCR) primer pairs were designed, 23 of which amplified a single product or several products. The level of microsatellite polymorphism was evaluated by using S. melongena lines and related Solanum species. Two to six alleles per primer pair were displayed in the S. melongena lines and two to 13 alleles were displayed in the Solanum relatives. Seven microsatellites showed polymorphism between parental lines of the mapping population and segregated in a codominant Mendelian manner. These microsatellite loci were distributed throughout the linkage map. [source]


Inheritance of heading time in spring barley evaluated in multiple environments

PLANT BREEDING, Issue 3 2001
L. W. Gallagher
Abstract The inheritance of heading time of spring barley was studied in three extremely early genotypes IB, RL and ,Mona' (M), which is homozygous recessive for the early maturity ea8 (=eak) gene conferring extreme earliness under short daylengths and is relatively photoperiod insensitive, and five (GP, MA, PS, NU and BA) spring genotypes that are early to intermediate for heading time. Frequency distributions of F2 generations grown at Ouled Gnaou, Morocco (32°15, N), an environment which maximizes differences between photoperiod-insensitive and photoperiod-sensitive genotypes, indicated that across populations many loci were segregating in a complex Mendelian manner. IB and RL were both homozygous recessive for the ea8 gene, which conferred an early heading time. RL had partially dominant alleles at second locus (Enea8), which enhanced its earliness. Recovery of only progeny within the parental range of genotypes for heading time from the crosses of RL/M and IB/M suggests that numerous loci remained suppressed, perhaps latent, given their diverse parentage. The ea8 recessive homozygote in RL suppressed another unidentified locus which, when homozygous recessive in the absence of the ea8 recessive homozygote, conferred extreme earliness in one short daylength environment (Ouled Gnaou, Morocco) but was undetected in another environment (Davis, CA, USA). Epistatic gene action and genotype × environment effects strongly influenced heading time. In addition to a genetic system consisting of single-locus recessive homozygotes conferring photoperiod insensitivity, a second genetic system, based on dominant alleles at one or a few loci, derived from the early heading Finnish landrace ,Olli', also confers extremely early heading time under short daylengths and relative photoperiod insensitivity in the genotype GP. [source]