Genetical control and linkage relationships of isozyme markers in sugar beet (B. vulgaris L.)

Summary Five isozyme systems were genetically investigated. The different separation techniques, the developmental expression and the use as marker system in sugar beet genetics and breeding is discussed. Isocitrate dehydrogenase was controlled by two genes. The gene products form inter- as well as intralocus dimers, even with the gene products of the Icd gene in B. procumbens and B. patellaris. Adenylate kinase was controlled by one gene. Three different allelic forms were detected, which were active as monomeric proteins. Glucose phosphate isomerase showed two zones of activity. One zone was polymorphic. Three allelic variants, active as dimers, were found. Phosphoglucomutase also showed two major zones of activity. One zone was polymorphic and coded for monomeric enzymes. Two allelic forms were found in the accessions studied. The cathodal peroxidase system was controlled by two independent genes, of which only one was polymorphic. The gene products are active as monomers. Linkage was found between red hypocotyl color (R) and Icd ₂. Pgm ₁, Gpi ₂, Ak ₁ and the Icd ₂-R linkage group segregated independently.     

KLH-specific,I-E/C-restricted clones of proliferating T lymphocytes

The recognition of keyhole limpet hemocyanin by a substantial proportion of proliferating clones of murine T lymphocytes was found to be restricted by the I-E/C^k molecule, which is a combinatorial product of genes located in the I-A (Ae) and I-EIC (E) subregions of the murine major histocompatibility complex. The respective roles of the Ae (polymorphic) and E (oligomorphic) gene products in the expression of the structures which are used as restriction elements by these T-cell clones was analyzed by mating parental strains unable to present the antigen and bearing selected Ae and E alleles. Efficient complementation for antigen presentation was found to require the expression by accessory cells of the Ae^k-gene product, whereas all E allelic molecules were functionally equivalent. These results (a) indicate that the immunoregulatory role of I-region gene products, initially described for molecules selected for their limited number of antigenic epitopes, also applies to complex multiepitopic antigens; (b) illustrate the advantage which results from the diversity of the la molecules expressed by accessory cells for the development of potent immune responses; and (c) suggest that a correlation might exist between the degree of polymorphism of a given family of H-2 allelic molecules and their ability to be used as restriction elements for antigen recognition by T lymphocytes.Abbreviations used in this paper FCS fetal calf serum - Hepes N-2-hydroxypiperazine-N-2 ethanesulfonic acid; in polypeptides - G glutamate - L lysine - Ø phenylalanine - KLH keyhole limpet hemocyanin - m. Ab. monoclonal antibodies - T cells thymus-derived cells     

Analysis of the porcine APOA2 gene expression in liver,polymorphism identification and association with fatty acid composition traits

APOA2 is a protein implicated in triglyceride, fatty acid and glucose metabolism. In pigs, the APOA2 gene is located on pig chromosome 4 (SSC4) in a QTL region affecting fatty acid composition, fatness and growth traits. In this study, we evaluated APOA2 as a candidate gene for meat quality traits in an Iberian × Landrace backcross population. The APOA2:c.131T>A polymorphism, located in exon 3 of APOA2 and determining a missense mutation, was associated with the percentage of hexadecenoic acid [C16:1(n–9)], linoleic acid [C18:2(n–6)], α‐linolenic acid [C18:3(n–3)], dihomo‐gamma‐linolenic acid [C20:3(n–6)] and polyunsaturated fatty acids (PUFAs) in backfat. Furthermore, this SNP was associated with the global mRNA expression levels of APOA2 in liver and was used as a marker to determine allelic expression imbalance by pyrosequencing. We determined an overexpression of the T allele in heterozygous samples with a mean ratio of 2.8 (T/A), observing a high variability in the allelic expression among individuals. This result suggests that complex regulatory mechanisms, beyond a single polymorphism (e.g. epigenetic effects or multiple cis‐acting polymorphisms), may be regulating APOA2 gene expression.     

The Schizosaccharomyces pombe cdc6 gene encodes the catalytic subunit of DNA polymerase δ

The cdc6 mutants of Schizosaccharomyces pombe have been classified as being defective in progression through the G2 phase of the cell cycle. We cloned an S. pombe gene that could complement the temperature-sensitive growth of the cdc6-23 mutant. Unexpectedly, the cloned gene was allelic to pol3, which encodes the catalytic subunit of DNA polymerase δ. Integration mapping confirmed that cdc6 and pol3 are identical. The cdc6-23 mutant carries one amino acid substitution in the conserved N3 region of Pol3. Received: 17 October 1996 / Accepted: 19 November 1996     

Genetic analysis of endosperm mutants in rice Oryza sativa L.

Summary Sugary, shrunken, floury, white core, amylose extender and dull mutants induced in japonica varieties were used in this study. The results of an allelic analysis conducted in japonica background indicated that the two sugary mutants 82GF and EM5 are allelic. The two amylose extender mutants 2064 and EM16 are also allelic. The opaque mutant ESD7-3(0) and floury mutants 2047, EM17 and EM28 are allelic as well and have the flo-1 gene. The three white core mutants EM3, EM24 and EM66 were found to be non-allelic. Eleven dull mutants were investigated. Dull mutants 2057, 2083, 2091 and EM15 were found to be allelic to each other. Similarly, dull mutants 2077, 2078 and 2120 have allelic genes. Dull mutants 2035, EM12, EM47, and EM98 are non-allelic to the above loci. Dull genes in EM12, EM15, and EM98 were designated earlier as du-1, du-2 and du-4, respectively.The mutant genes were transferred to indica background by two backcrosses to IR36. Some of the mutant genes were located to respective chromosomes through trisomic analysis using primary trisomics of IR36. In this way the amylose extender gene ae was located to chromosome 2, the flo-1 was located to chromosome 5 and the flo-2 to chromosome 4. Dull genes of EM47, 2120, and 2035 were assigned to chromosomes 6, 9, and 6, respectively.     

Polyploid engineering by increasing mutant gene dosage in yeasts

The yeast Saccharomyces cerevisiae, widely used for ethanol production, is one of the best-understood biological systems. Diploid strains of S. cerevisiae are preferred for industrial use due to the better fermentation efficiency, in terms of vitality and endurance as compared to those of haploid strains. Whole-genome duplications is known to promote adaptive mutations in microorganisms, and allelic variations considerably contribute to the product composition in ethanol fermentation. Although fermentation can be regulated using various strains of yeast, it is quite difficult to make fine adjustment of each component in final products. In this study, we demonstrate the use of polyploids with varying gene dosage (the number of copies of a particular gene present in a genome) in the regulation of ethanol fermentation. Ethyl caproate is one of the major flavouring agents in a Japanese alcoholic beverage called sake. A point mutation in FAS2 encoding the α subunit of fatty acid synthetase induces an increase in the amount of caproic acid, a precursor of ethyl caproate. Using the FAS2 as a model, we generated and evaluated yeast strains with varying mutant gene dosage. We demonstrated the possibility to increase mutant gene dosage via loss of heterozygosity in diploid and tetraploid strains. Productivity of ethyl caproate gradually increased with mutant gene dosage among tetraploid strains. This approach can potentially be applied to a variety of yeast strain development via growth-based screening.     

Incompatibility in the fungus Podospora anserina. Are the mutations abolishing the incompatibility reaction ribosomal mutations?

Summary In the Ascomycete Podospora anserina the incompatibility reaction due to the interaction of non allelic genes exhibits some sensitivity to the antibiotic dihydrostreptomycin as well as to high levels of Magnesium. This incompatibility reaction can be suppressed or made more sensitive to the Magnesium or dihydrostreptomycin effect by mutations in the same genes mod1 and mod2. Properties of mutant strains suggest that mod1 and mod2 are ribosomal genes whose products seem to regulate, in a positive way for the first gene and in a negative way for the second gene, the translation of specific messengers, especially that of some proteolytic enzymes.     

The S-locus of Nicotiana alata: genomic organization and sequence analysis of two S-RNase alleles

Genomic clones encoding the S ₂- and S ₆-RNases of Nicotiana alata Link and Otto, which are the allelic stylar products of the self-incompatibility (S) locus, were isolated and sequenced. Analysis of genomic DNA by pulsed-field gel electrophoresis and Southern blotting indicates the presence of only a single S-RNase gene in the N. alata genome. The sequences of the open-reading frames in the genomic and corresponding cDNA clones were identical. The organization of the genes was similar to that of other S-RNase genes from solanaceous plants. No sequence similarity was found between the DNA flanking the S ₂- and S ₆-RNase genes, despite extensive similarities between the coding regions. The DNA flanking the S ₆-RNase gene contained sequences that were moderately abundant in the genome. These repeat sequences are also present in other members of the Nicotianae.     

Genetic evidence supporting the existence of two diverged groups in the goby Gymnogobius castaneus

The genetic population structure of the Japanese freshwater goby Gymnogobius castaneus was investigated on the basis of analysis of gene products of 19 allozyme loci. Two diverged groups were detected, one being endemic to the Kanto region and the other extensively distributed in eastern Japan. These two groups were distinguishable from each other by a complete allelic substitution in one locus, G3PDH*. In the Kanto region, both groups were distributed in the same river basin, being distinguishable by a complete allelic substitution in four loci, G3PDH*, GPI-2*, PGDH*, and PGM*. These results suggest that these two groups showed reproductive isolation.     

Epigenetic Resetting of a Gene Imprinted in Plant Embryos

Genomic imprinting resulting in the differential expression of maternal and paternal alleles in the fertilization products has evolved independently in placental mammals and flowering plants. In most cases, silenced alleles carry DNA methylation [1]. Whereas these methylation marks of imprinted genes are generally erased and reestablished in each generation in mammals [2], imprinting marks persist in endosperms [3], the sole tissue of reported imprinted gene expression in plants. Here we show that the maternally expressed in embryo 1 (mee1) gene of maize is imprinted in both the embryo and endosperm and that parent-of-origin-specific expression correlates with differential allelic methylation. This epigenetic asymmetry is maintained in the endosperm, whereas the embryonic maternal allele is demethylated on fertilization and remethylated later in embryogenesis. This report of imprinting in the plant embryo confirms that, as in mammals, epigenetic mechanisms operate to regulate allelic gene expression in both embryonic and extraembryonic structures. The embryonic methylation profile demonstrates that plants evolved a mechanism for resetting parent-specific imprinting marks, a necessary prerequisite for parent-of-origin-dependent gene expression in consecutive generations. The striking difference between the regulation of imprinting in the embryo and endosperm suggests that imprinting mechanisms might have evolved independently in both fertilization products of flowering plants.     

Peptide binding motifs and specificities for HLA-DQ molecules

 HLA-DQ molecules have been associated with susceptibility to a number of autoimmune and other diseases, possibly through the peptide repertoire that can be presented by different allelic products. It is thus of importance to understand which peptides can be bound by different HLA-DQ allelic products. Recently, a model for HLA-DQ has been described and used to derive peptide positional environments for HLA-DQ allelic products. By combining the peptide positional environments with known HLA-DQ peptide binding motifs, a set of predictions of likely anchor motifs for many of the products of HLA-DQ allelic variants are made and presented in a table referred to as a roadmap for HLA-DQ peptide binding specificities. Received: 3 March 1999 / Revised: 20 May 1999     

Comparative analysis of the three major histocompatibility complex-linked heat shock protein 70 (Hsp70) genes of the rat

The organization of the three major histocompatibility complex (Mhc)-linked heat shock protein 70 (Hsp70) genesHsp70-1, Hsp70-2, andHsp70-3, and the nucleotide sequences of these genes, are presented for the rat.Hsp70-1 andHsp70-2 gene products are identical at the amino acid level. From the pattern of sequence similarity of the orthologous Mhc-linkedHsp70 genes of rat, human, and mouse, it is concluded that the gene duplications leading to the three-gene cluster occurred before the separation of the primate and rodent lines and that theHsp70-1 andHsp70-2 genes of rat and human might have undergone homogenization of their sequences.     

Polymorphism in a T-cell receptor variable gene is associated with susceptibility to a juvenile rheumatoid arthritis subset

This report demonstrates a T-cell receptor (Tcr) restriction fragment length polymorphism, defined by a Tcrb-V6.1 gene probe and Bgl II restriction enzyme, to be absolutely correlated with allelic variation in the coding sequence of a Tcrb-V6.1 gene. A pair of non-conservative amino acid substitutions distinguish the Tcrb-V6.1 allelic variants. An association of this Tcrb-V6.1 gene allelic variant with one form of juvenile rheumatoid arthritis (JRA) was established in a cohort of 126 patients. The association was observed in patients possessing the HLA-DQA1*0101 gene. Among HLA-DQA*0101 individuals, 19 of 26 patients (73.1%) carried one particular Tcrb-V6.1 gene allele as opposed to 11 of 33 controls (33%; p<0.005). Haplotypes carrying this HLA gene have previously been shown to confer increased risk for progression of arthritis in JRA. This demonstration of a disease-associated Tcrb-V gene allelic variant has not, to our knowledge, been previously reported and supports the contribution of polymorphism in the Tcr variable region genomic repertoire to human autoimmune disease.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers M67511 for V6.1A and M67512 for V6.1B.     

The ESD polymorphism: Further studies of the ESD2 and ESD5 allele products

Summary Electrofocusing and agarose electrophoresis techniques both reveal polymorphism of ESD 2, which may be subdivided into two different proteins, coded for by genes allelic to ESD ^*1. After agarose electrophoresis, ESD 2 is slightly more anodally located than ESD 5, while the latter is considerably more acidic as revealed by electrofocusing in polyacrylamide gel slabs. Family studies have confirmed that each of the allele products behave as Mendelian characters: and the gene frequencies in a Norwegian population material are about 0.08 and 0.02 for the ESD ^*2 and ESD ^*5 alleles, respectively.     

Analysis of the S-locus structure in Prunus armeniaca L. Identification of S-haplotype specific S-RNase and F-box genes

The gametophytic self-incompatibility (GSI) system in Rosaceae has been proposed to be controlled by two genes located in the S-locusan S-RNase and a recently described pollen expressed S-haplotype specific F-box gene (SFB). However, in apricot (Prunus armeniaca L.) these genes had not been identified yet. We have sequenced 21kb in total of the S-locus region in 3 different apricot S-haplotypes. These fragments contain genes homologous to the S-RNase and F-box genes found in other Prunusspecies, preserving their basic gene structure features and defined amino acid domains. The physical distance between the F-boxand the S-RNase genes was determined exactly in the S ₂-haplotype (2.9kb) and inferred approximately in the S ₁-haplotype (< 49kb) confirming that these genes are linked. Sequence analysis of the 5 flanking regions indicates the presence of a conserved region upstream of the putative TATA box in the S-RNase gene. The three identified S-RNase alleles (S ₁, S ₂ and S ₄) had a high allelic sequence diversity (75.3 amino acid identity), and the apricot F-box allelic variants (SFB₁, SFB₂ and SFB₄) were also highly haplotype-specific (79.4 amino acid identity). Organ specific-expression was also studied, revealing that S ₁- and S ₂-RNases are expressed in style tissues, but not in pollen or leaves. In contrast, SFB ₁ and SFB ₂ are only expressed in pollen, but not in styles or leaves. Taken together, these results support these genes as candidates for the pistil and pollen S-determinants of GSI in apricot.     

A novel root gravitropism mutant of Arabidopsis thaliana exhibiting altered auxin physiology

A root gravitropism mutant was isolated from the DuPont Arabidopsis thaliana T-DNA insertional mutagenesis collection. This mutant has reduced root gravitropism, hence the name rgrl. Roots of rgrl are shorter than those of wild-type, and they have reduced lateral root formation. In addition, roots of rgrl coil clockwise on inclined agar plates, unlike wild-type roots which grow in a wavy pattern. The rgrl mutant has increased resistance, as measured by root elongation, to exogenously applied auxins (6-fold to indole-3-acetic acid, 3-fold to 2,4-dichlorophenoxyacetic acid, and 2-fold to napthyleneacetic acid). It is also resistant to polar auxin transport inhibitors (2-fold to triiodobenzoic acid and 3- to 5-fold lo napthyleneacetic acid). The rgrl mutant does not appear to be resistant to other plant hormone classes. When grown in the presence of 10^?2 M 2.4-dichlorophenoxyacetic acid, rgrl roots have fewer root hairs than wild type. All these rgrl phenotypes are Mendelian recessives. Complementation tests indicate that rgrl is not allelic to previously characterized agravitropic or auxin-resistant mutants. The rgrl locus was mapped using visible markers to 1.4 ± 0.6 map units from the CHI locus at 1–65.4. The rgrl mutation and the T-DNA cosegregate, suggesting that rgrl was caused by insertional gene inactivation.     

HLA-C “blank” alleles express class I gene products. Biochemical analysis of four different HLA-C “blank” polypeptides

Monoclonal antibodies (mAbs) W6/32, HC10, and 4E were used to precipitate class I antigens from 21 selected individuals with at least oneHLA-C “blank” allele. In 19 of these individuals, characteristicHLA-C banding patterns which could be precipitated by all three HLA class I mAbs were observed on one-dimensional isoelectric focusing gels-obviously the gene products ofHLA-C “blank”. At least four allelic HLA-C “blank” gene products with different isoelectric points could be discerned. All of them segregated withHLA-C “blank” haplotypes in informative families; two of them were associated withHLA-B51, one withHLA-B38, and one withHLA-B18. Reactivity of the HLA-C “blank” heavy chains with mAb W6/32 indicates that they are able to associated with beta-2 microglobulin, and hence are most probably expressed at the cell surface.     

“Blind” mapping of genic DNA sequence polymorphisms in Lolium perenne L. by high resolution melting curve analysis

High resolution melting curve analysis (HRM) measures dissociation of double stranded DNA of a PCR product amplified in the presence of a saturating fluorescence dye. Recently, HRM proved successful to genotype DNA sequence polymorphisms such as SSRs and SNPs based on the shape of the melting curves. In this study, HRM was used for simultaneous screening and genotyping of genic DNA sequence polymorphisms identified in the Lolium perenne F2 mapping population VrnA. Melting profiles of PCR products amplified from previously published gene loci and from a novel gene putatively involved in vernalization response successfully discriminated genotypes in absence of allelic sequence information, and allowed to determine allele segregation in VrnA. Here we introduce the concept of “blind” mapping based on HRM as a powerful, fast and cheap method to map any DNA sequence polymorphisms without prior knowledge of allelic sequences in the key grassland species perennial ryegrass (Lolium perenne L.).     

Whole genome scan detects an allelic variant of <Emphasis Type="Italic">fad2</Emphasis> associated with increased oleic acid levels in maize

We used whole genome scan association mapping to identify loci with major effect on oleic acid content in maize kernels. Single nucleotide polymorphism haplotypes at 8,590 loci were tested for association with oleic acid content in 553 maize inbreds. A single locus with major effect on oleic acid was mapped between 380 and 384 cM in the IBM2 neighbors genetic map on chromosome 4 and confirmed in a biparental population. A fatty acid desaturase, fad2, identified ∼2 kb from the associated genetic marker, is the most likely candidate gene responsible for the differences in the phenotype. The fad2 alleles with high- and low-oleic acid content were sequenced and allelic differences in fad2 RNA level in developing embryos was investigated. We propose that a non-conservative amino acid polymorphism near the active site of fad2 contributes to the effect on oleic acid content. This is the first report of the use of a high resolution whole genome scan association mapping where a putative gene responsible for a quantitative trait was identified in plants. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. Nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession number EF687907.     

Analysis of Inheritance of Morphological and Biochemical Characters Introgressed into Common Wheat from <Emphasis Type="Italic">Aegilops speltoides</Emphasis> Tausch.

Genetic control of some morphological traits and the gliadin composition were examined in plants of two lines of common wheat carrying genes introgressed from the wild diploid cereal Aegilops speltoides. Leaf hairiness was shown to be controlled by a single introgressed dominant gene that was not allelic to the known common wheat gene Hl1. Waxlessness of the whole plant is controlled by the introgressed from Ae. speltoides inhibitor gene allelic to gene W1 ^I located on chromosome 2B. This gene was epistatic to the introgressed gene controlling spike waxlessness. The introgressed gene of spike color was shown to be allelic to Rg1 located on chromosome 1B of common wheat. However, the former gene proved to be linked to an allele of the Gli-B1 locus other than in wheat.__________Translated from Genetika, Vol. 41, No. 6, 2005, pp. 793–799.Original Russian Text Copyright © 2005 by Pshenichnikova, Lapochkina, Shchukina, Berezovskaya, Trufanov.