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52. Mapping of QTL on chromosome X for fat deposition, muscling and growth traits in a wild boar × Meishan F2 family using a high-density gene map.

Author

Čepica, S., Bartenschlager, H., and Geldermann, H.

Subjects
*ANIMAL genetics, *X chromosome, *ANIMAL genome mapping, *WILD boar, *OBESITY, *ANIMAL breeds
Abstract

Quantitative trait loci (QTL) for fat deposition, growth and muscling traits have been previously mapped on the basis of low-density linkage maps in a wild boar × Meishan F2 family to the chromosome X region flanked by SW2456 and SW1943. Improved QTL resolution was possible using data for F2 animals with a marker density of 2.7 cM distance in the SW2456 to SW1943 region, including AR, SERPINA7 and ACSL4 as candidate genes. The resolution of the QTL scan was increased substantially, as evidenced by the higher F-ratio values for all QTL. Maxima of F-ratio values for fat deposition, muscling and growth traits were 28.6, 18.2 and 16.5 respectively, and those QTL positions accounted for 7.9%, 5.0% and 4.5% of the F2 phenotypic variance (VF2) respectively. QTL for fatness and growth and for most muscling traits mapped near ACSL4, with the exception of the QTL for ham traits that mapped proximally, in the vicinity of AR. An analysis performed separately for F2 male animals showed the predominant QTL affecting fat deposition traits (up to 13.6% VF2) near AR and two QTL for muscling traits (up to 9.9% VF2) mapped close to ACSL4. In the F2 female animals, QTL affecting muscling (up to 12.1% VF2) mapped at ACSL4 and SW2456, and QTL for fat deposition (10% VF2) and growth (up to 10.5% VF2) mapped at ACSL4. [ABSTRACT FROM AUTHOR]

Published
2007
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53. Analysis of polymorphicPRNPmicrosatellite and ORF sites in German sheep breeds.

Author

Preuss, S., Kuss, A.W., He, H., Bartenschlager, H., and Geldermann, H.

Subjects
MICROSATELLITE repeats, SHEEP breeds, GENETIC polymorphisms, PROTEINS, POLYMERASE chain reaction, ANIMAL breeding
Abstract

Polymorphic microsatellite and open-reading frame (ORF) sites in the prion protein coding gene (PRNP) were analysed in eight sheep breeds. The three microsatellite sitesS11,S15andS24were genotyped by fragment length analysis, and the ORF codons 136, 154 and 171 were analysed after direct sequencing. Unexpected polymerase chain reaction (PCR) products of microsatellite sites and ORF haplotypes with more than one heterozygous site were submitted to cloning and then sequenced. The microsatellite sites were polymorphic in all breeds with two to five alleles per site. On average of breeds and sites, the microsatellites had higher degrees of polymorphism than the ORF sites. TheARR/ARRORF genotype occurred always together with the microsatellite genotypesS11152/152,S15179/179 andS24144/144. As ORF and microsatellite alleles of thePRNPwere observed in typical combinations, the microsatellite genotypes were significantly associated with scrapie incidences or risk classes based on the ORF genotypes. The microsatellite sites were highly polymorphic and therefore are advantageous markers for evaluation of scrapie disposition and fine mapping of effects on scrapie pathogenesis within the gene. [ABSTRACT FROM AUTHOR]

Published
2005
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54. Linkage and QTL mapping for Sus scrofa chromosome 5.

Author

Lee, S.S., Chen, Y., Moran, C., Stratil, A., Reiner, G., Bartenschlager, H., Moser, G., and Geldermann, H.

Subjects
WILD boar, GENE mapping, ANIMAL genome mapping, CHROMOSOMES, ANIMAL genetics, ANIMAL breeding
Abstract

Linkage maps of Sus scrofa chromosome 5 (SSC5) were constructed using up to 10 markers in three informative F2 families based on Wild Boar (W), Meishan (M) and Pietrain (P) crosses. The map lengths differed among the families. In the M × P family, the MYF5 locus was linkage mapped between SW995 and SW967. Relatively few quantitative trait loci (QTLs) were observed on SSC5 explaining a maximum of 5.8% of phenotypic variance in the F2 generation. The presence and position of QTLs were not consistent among families. The Meishan and Wild Boar QTL allele effects were inferior compared with Pietrain allele effects. The additive effects were small and reasonably strong dominance-effects were observed. QTLs affecting conductivity in the W × M family and food conversion ratio in the M x P family mapped near MYF5, while the QTL affecting conductivity in the M x P family was located near IGF1. [ABSTRACT FROM AUTHOR]

Published
2003

55. Genome-wide linkage and QTL mapping in porcine F2 families generated from Pietrain, Meishan and Wild Boar crosses.

Author

Geldermann, H., Müller, E., Moser, G., Reiner, G., Bartenschlager, H., Cepica, S., Stratil, A., Kuryl, J., Moran, C., Davoli, R., and Brunsch, C.

Subjects
ANIMAL genetics, SWINE, GENOMES, GENE mapping
Abstract

Copyright of Journal of Animal Breeding & Genetics is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2003
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56. Trait values of growth, carcass and meat quality in Wild Boar, Meishan Pietrain pigs as well as their crossbred generations.

Author

Muller, E., Moser, G., Bartenschlager, H., and Geldermann, H.

Subjects
WILD boar, BREEDING, GENETICS, MEAT quality, LIVESTOCK carcasses
Abstract

Investigates the genetic diversity between European Wild Boar, Pietrain and Meishan and their crossbred generations. Focus on performance traits for growth, carcass composition and meat quality; Range of values for the specified breeds; Analysis of genes.

Published
2000

57. PRIMER NOTE New polymorphic microsatellite loci for different camel species

Author

Evdotchenko, D., Han, Y., Bartenschlager, H., Preuss, S., and Geldermann, H.

Abstract

New microsatellite loci were screened and sequenced from the genomic DNA of male Camelus bactrianus. Among 32 loci, 23 were amplified in bactrian and dromedary species, 19 in llama and 20 in alpaca. The different species had similar fragment lengths per locus, with more striking similarities between bactrian and dromedary and between llama and alpaca, respectively. Seven loci had more than 10 alleles each, nine were monomorphic in all species, and one was monomorphic in Old World and polymorphic in New World camels. The results show that the informative microsatellite loci can be widely applied to several species.

Published
2003
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62. Status of Genome and QTL Mapping in Pigs Data of Hohenheim F2 Families

Author

Geldermann, H., Moser, G., Müller, E., Beeckmann, P., Yue, G., Dragos, M., Bartenschlager, H., Cepica, S., Antonin Stratil, and Schröffel, J.

Subjects
food and beverages
Abstract

Three informative F2 families (by use of European Wild boar (W), Pietrain (P) and Meishan (M)), each with more than 300 animals, were genotyped for evenly spaced marker loci and recorded for more than 100 quantitative traits. Linkage and QTL mapping data for 8 chromosomes are presented (74, 76 and 75 mapped loci in families WxP, MxP and WxM, resp). Linkage maps gave evidence of heterogeneity in recombination between sexes and families. The male to female recombination ratio were 1.19 (WxP), 1.35 (MxP) and 1.27 (WxM). Several QTLs were mapped for performance traits of growth, carcass and meat quality. These QTLs are located on different chromosomes and influenced by families. Larger effects were found on chromosome 6 and 7, and e.g. up to 60% of the phenotypic F2 variance for meat quality traits was associated with chromosome 6. Candidate genes are proposed for some of the QTL intervals. The subsequent QTL mapping use a combined strategy of genome-wide marker mapping with a positional candidate gene approach in order to identify genes which are significant for breeding.

63. Large-scale, multibreed, multitrait analyses of quantitative trait loci experiments: The case of porcine X chromosome

Author

Miguel Perez-Enciso, Mercadé A, Jp, Bidanel, Geldermann H, Cepica S, Bartenschlager H, Varona L, Milan D, Jm, Folch, Station de Génétique Quantitative et Appliquée (SGQA), Institut National de la Recherche Agronomique (INRA), Laboratoire de Génétique Cellulaire (LGC), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), and Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées

Subjects
Male, Likelihood Functions, Genotype, Models, Genetic, Swine, QTL, [SDV]Life Sciences [q-bio], Body Weight, Quantitative Trait Loci, X CHROMOSOME, Breeding, FATNESS, Adipose Tissue, Animals, Body Fat Distribution, GROWTH, Female, PIGS, ComputingMilieux_MISCELLANEOUS
Abstract

A QTL analysis of multibreed experiments (i.e., crossed populations involving more than two founder breeds) offers clear advantages over classical two-breed crosses, among them increased power and a more comprehensive coverage of the total genetic variability in the species. An alternative to designed multibreed crosses is to reanalyze jointly several experiments involving different breeds. We report a multibreed, multitrait QTL analysis of SSCX that involves five different crosses, six breeds, and almost 3,000 genotyped individuals using a truly multibreed strategy to allow for any number of founder breed origins. Traits analyzed were growth, fat thickness, carcass length, and shoulder and ham weights. Generally, the joint analysis resulted in more significant QTL than the single-experiment analyses. We show that the QTL for fatness, which is highly significant (nominal P10(-43)), is of Asiatic origin (Meishan). The next most significant QTL (nominal P10(-15)) affected ham weight and seems to be segregating only between Large White and the rest of the breeds. A multitrait, multi-QTL analysis suggests that these are two distinct loci. Additionally, a locus segregating only between Iberian and Landrace affects live weight. The advantages of joint, multibreed analyses clearly outweigh their potential risks.

64. Linkage and radiation hybrid mapping of the porcineMPZgene to chromosome 4q.

Author

Wagenknecht, D., Bartenschlager, H., Van Poucke, M., Geldermann, H., Peelman, L. J., Majzlík, I., and Stratil, A.

Subjects
*GENE mapping, *ANIMAL genetics, *GENETIC polymorphisms, *ANIMAL genome mapping, *CHROMOSOMES
Abstract

Studies the linkage and radiation hybrid mapping of the porcine MPZ gene to chromosome 4q. Polymorphism, mendelian inheritance and allele frequencies; Radiation hybrid mapping.

Published
2005
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65. Linkage and QTL mapping for Sus scrofa chromosome 6

Author

Roberta Davoli, D. Schröffelova, Paolo Zambonelli, H. Bartenschlager, Gerald Reiner, Antonín Stratil, I. Sternstein, J. Schröffel, H. Geldermann, C. Brunsch, Gen Hua Yue, J. Hojny, Gerhard Moser, M. Kopecny, Stanislav Čepica, Yue G., Stratil A., Kopecny M., Schroffelova D., Schroffel Jr. J., Hojny J., Cepica S., Davoli R., Zambonelli P., Brunsch C., Sternstein I., Moser G., Bartenschlager H., Reiner G., and Geldermann H.

Subjects
Genetics, food and beverages, Locus (genetics), General Medicine, Biology, Quantitative trait locus, musculoskeletal system, Stress resistance, pig, linkage map, chromosome 6, Food Animals, Genetic variation, Animal Science and Zoology, Carcass composition, Allele, tissues
Abstract

Linkage maps have been constructed for Sus scrofa chromosome 6 (SSC6) based on 17 markers, of which 10 were used in all three F 2 families of Wild Boar (W), Meishan (M) and Pietrain (P) crosses. The coverage of the linkage maps of SSC6 was almost complete. All loci were ordered identically in the families, but two intervals (RYR1-A1BG-EAH, S0146-S0003-SW824) differed from published maps. Major quantitative trait loci (QTLs) for meat quality, stress resistance and carcass composition explaining up to 59% of F 2 phenotypic variance have been mapped in the M x P and W x P families centred on the segregating RYR1 T and C alleles. In the W x M family, which was homozygous for the RYR1 C allele, no QTL effects for meat quality and stress-resistance, but moderate effects for carcass composition have been observed in this region. These findings indicate further loci closely linked with the RYR1 or/and further alleles at the RYR1 locus, involved in the variation of carcass and growth traits.

66. Porcine EEF1A1 and EEF1A2 genes: genomic structure, polymorphism, mapping and expression.

Author

Svobodová K, Horák P, Stratil A, Bartenschlager H, Van Poucke M, Chalupová P, Dvořáková V, Knorr C, Stupka R, Čítek J, Šprysl M, Palánová A, Peelman LJ, Geldermann H, and Knoll A

Subjects
Animals, Base Sequence, Gene Expression, Gene Expression Profiling, Genomics, Molecular Sequence Data, Organ Specificity, Sequence Analysis, DNA, Sus scrofa metabolism, Peptide Elongation Factor 1 genetics, Peptide Elongation Factor 2 genetics, Polymorphism, Genetic, Sus scrofa genetics
Abstract

Eukaryotic translation elongation factor 1 alpha (EEF1A) plays a key role in protein synthesis. In higher vertebrates EEF1A occurs in two isoforms, EEF1A1 and EEF1A2, encoded by distinct genes. The purpose of this study was to compare the two porcine genes as for the genomic sequence, gene organization and mRNA expression in different tissues, as well as to search for polymorphism and chromosomal assignment. Standard methods of DNA and mRNA analysis were used. We determined the complete genomic sequence of the porcine EEF1A1 and EEF1A2 genes. The two genes differ in the lengths of transcription units (3102 and 8588 bp, respectively), but have similar genomic organization and their coding sequences are highly similar (78% identity of coding sequences and 92.4% identity of amino acid sequences). Several polymorphisms in the two genes were detected. EEF1A1 and EEF1A2 were mapped to SSC1p11.1 and SSC17q23.3, respectively. mRNA of EEF1A1 was expressed in all studied tissues (the highest expression was in 44-day fetal muscle and low expression in adult liver and brain), while EEF1A2 was expressed only in skeletal-muscle, tongue, heart, diaphragm and brain tissues. EEF1A2 was not expressed in fetal muscle tissue (44 days). In this paper results are provided on genomic sequences, genomic organization, polymorphism, chromosomal assignment and spatial and temporal expressions of the porcine EEF1A1 and EEF1A2 genes. Novel polymorphisms were described in both genes. Porcine EEF1A2 was studied for the first time.

Published
2015
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67. Porcine ubiquitin-like 5 (UBL5) gene: genomic organization, polymorphisms, mRNA cloning, splicing variants and association study.

Author

Masopust M, Weisz F, Bartenschlager H, Knoll A, Vykoukalová Z, Geldermann H, and Cepica S

Subjects
Animals, Cloning, Molecular, Female, Gene Order, Male, Promoter Regions, Genetic, Genetic Association Studies, Genome, Polymorphism, Genetic, RNA Splicing, RNA, Messenger, Swine genetics, Ubiquitins genetics
Abstract

Ubiquitin-like 5 (UBL5), which is supposed to be involved in regulation of feed intake, energy metabolism, obesity and type 2 diabetes, is located at position 62.1 cM on the pig chromosome 2 region harbouring quantitative trait loci for carcass and meat quality. The 4,354 bp genomic sequence (FR798948) of the porcine gene encompassing the promoter and entire gene was cloned by polymerase chain reaction. Comparative sequencing revealed 13 polymorphisms in noncoding regions. Synthesis of full-length cDNA sequences using rapid amplification of 5' and 3' ends showed three splice variants. Variants 1 and 2 differ in transcription length for the untranslated part of exon 1 with deduced protein of 73 amino acid (aa) residues and 100 % identities between human, mouse and other species. Variant 3, with 4 bp deletion at the 3' end of exon 2, encodes a truncated protein with 28 aa residues. In a Wild boar×Meishan F2 population (n = 334) with 47 recorded traits, loci FR798948:g.2788G>A and FR798948:g.2141T>C were associated at nominal P < 0.05 with fat deposition, growth and fattening and muscling but after adjustment for multiple testing (Benjamini and Hochberg, J R Stat Soc B 57:289-300, 1995) only eight fat deposition traits showed suggestive association with FR798948:g.2788G>A at adjusted P < 0.10. In a Meishan×Large White (MLW) cross (n = 562) with six trait records available, FR798948:g.2141T>C showed suggestive association with growth (adjusted P = 0.0690). As association mapping conducted in the outbred MLW population is more precise than in the three generation F2 population the UBL5 gene tends to be associated with growth rather than with fat accretion.

Published
2014
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68. Association between polymorphism in the FTO gene and growth and carcass traits in pig crosses.

Author

Dvořáková V, Bartenschlager H, Stratil A, Horák P, Stupka R, Cítek J, Sprysl M, Hrdlicová A, and Geldermann H

Subjects
Adipose Tissue anatomy & histology, Animals, Back anatomy & histology, Chromosome Mapping, Gene Frequency, Genetic Association Studies, Genetic Loci, Linkage Disequilibrium, Models, Genetic, Ryanodine Receptor Calcium Release Channel genetics, Sus scrofa anatomy & histology, Sus scrofa growth & development, Transforming Growth Factor beta1 genetics, Body Composition genetics, Dioxygenases genetics, Polymorphism, Single Nucleotide, Sus scrofa genetics
Abstract

Background: Independent studies have shown that several single nucleotide polymorphisms (SNP) in the human FTO (fat mass and obesity associated) gene are associated with obesity. SNP have also been identified in the pig FTO gene, among which some are associated with selected fat-deposition traits in F2 crosses and commercial populations. In this study, using both commercial pig populations and an experimental Meishan × Pietrain F2 population, we have investigated the association between one FTO SNP and several growth and carcass traits. Association analyses were performed with the FTO polymorphism either alone or in combination with polymorphisms in flanking loci., Methods: SNP (FM244720:g.400C>G) in exon 3 of porcine FTO was genotyped by PCR-RFLP and tested for associations with some growth, carcass and fat-related traits. Proportions of genetic variance of four pig chromosome 6 genes (FTO, RYR1, LIPE and TGFB1) on selected traits were evaluated using single- and multi-locus models., Results: Linkage analysis placed FTO on the p arm of pig chromosome 6, approximately 22 cM from RYR1. In the commercial populations, allele C of the FTO SNP was significantly associated with back fat depth and allele G with muscling traits. In the Meishan × Pietrain F2 pigs, heterozygotes with allele C from the Pietrain sows and allele G from the Meishan boar were more significantly associated with fat-related traits compared to homozygotes with allele G from the Pietrain and allele G from the Meishan breed. In single- and multi-locus models, genes RYR1, TGFB1 and FTO showed high associations. The contribution in genetic variance from the polymorphism in the FTO gene was highest for back fat depth, meat area on the musculus longissimus lumborum et thoracis tissues and metabolite glucose-6-phosphate dehydrogenase., Conclusions: Our results show that in pig, FTO influences back fat depth in the commercial populations, while in the Meishan × Pietrain F2 pigs with a CG genotype, heterosis occurs for several fat-related traits.

Published
2012
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69. Porcine insulin receptor substrate 4 (IRS4) gene: cloning, polymorphism and association study.

Author

Masopust M, Vykoukalová Z, Knoll A, Bartenschlager H, Mileham A, Deeb N, Rohrer GA, and Cepica S

Subjects
Animals, Base Sequence, Body Weights and Measures, Chromosome Mapping, Cloning, Molecular, DNA Primers genetics, Genome-Wide Association Study, Linear Models, Molecular Sequence Data, Polymerase Chain Reaction, Sequence Analysis, DNA, Sequence Homology, Insulin Receptor Substrate Proteins genetics, Phenotype, Polymorphism, Single Nucleotide genetics, Swine genetics
Abstract

Using PCR and inverse PCR techniques we obtained a 4,498 bp nucleotide sequence FN424076 encompassing the complete coding sequence of the porcine insulin receptor substrate 4 (IRS4) gene and its proximal promoter. The 1,269 amino acid porcine protein deduced from the nucleotide sequence shares 92% identity with the human IRS4 and possesses the same domains and the same number of tyrosine phosphorylation motifs as the human protein. We detected substitution FN424076:g.96C

Published
2011
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70. Genome-wide mapping of quantitative trait loci for fatness, fat cell characteristics and fat metabolism in three porcine F2 crosses.

Author

Geldermann H, Cepica S, Stratil A, Bartenschlager H, and Preuss S

Subjects
Animals, Chromosomes, Mammalian genetics, Female, Genetic Linkage, Genetic Markers, Male, Pedigree, Quantitative Trait, Heritable, Adipocytes metabolism, Adiposity genetics, Chromosome Mapping methods, Crosses, Genetic, Lipid Metabolism genetics, Quantitative Trait Loci genetics, Sus scrofa genetics
Abstract

Background: QTL affecting fat deposition related performance traits have been considered in several studies and mapped on numerous porcine chromosomes. However, activity of specific enzymes, protein content and cell structure in fat tissue probably depend on a smaller number of genes than traits related to fat content in carcass. Thus, in this work traits related to metabolic and cytological features of back fat tissue and fat related performance traits were investigated in a genome-wide QTL analysis. QTL similarities and differences were examined between three F2 crosses, and between male and female animals., Methods: A total of 966 F2 animals originating from crosses between Meishan (M), Pietrain (P) and European wild boar (W) were analysed for traits related to fat performance (11), enzymatic activity (9) and number and volume of fat cells (20). Per cross, 216 (MxP), 169 (WxP) and 195 (WxM) genome-wide distributed marker loci were genotyped. QTL mapping was performed separately for each cross in steps of 1 cM and steps were reduced when the distance between loci was shorter. The additive and dominant components of QTL positions were detected stepwise by using a multiple position model., Results: A total of 147 genome-wide significant QTL (76 at P<0.05 and 71 at P<0.01) were detected for the three crosses. Most of the QTL were identified on SSC1 (between 76-78 and 87-90 cM), SSC7 (predominantly in the MHC region) and SSCX (in the vicinity of the gene CAPN6). Additional genome-wide significant QTL were found on SSC8, 12, 13, 14, 16, and 18. In many cases, the QTL are mainly additive and differ between F2 crosses. Many of the QTL profiles possess multiple peaks especially in regions with a high marker density. Sex specific analyses, performed for example on SSC6, SSC7 and SSCX, show that for some traits the positions differ between male and female animals. For the selected traits, the additive and dominant components that were analysed for QTL positions on different chromosomes, explain in combination up to 23% of the total trait variance., Conclusions: Our results reveal specific and partly new QTL positions across genetically diverse pig crosses. For some of the traits associated with specific enzymes, protein content and cell structure in fat tissue, it is the first time that they are included in a QTL analysis. They provide large-scale information to analyse causative genes and useful data for the pig industry.

Published
2010
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71. A distinctive gene expression fingerprint in mentally retarded male patients reflects disease-causing defects in the histone demethylase KDM5C.

Author

Jensen LR, Bartenschlager H, Rujirabanjerd S, Tzschach A, Nümann A, Janecke AR, Spörle R, Stricker S, Raynaud M, Nelson J, Hackett A, Fryns JP, Chelly J, de Brouwer AP, Hamel B, Gecz J, Ropers HH, and Kuss AW

Abstract

Background: Mental retardation is a genetically heterogeneous disorder, as more than 90 genes for this disorder has been found on the X chromosome alone. In addition the majority of patients are non-syndromic in that they do not present with clinically recognisable features. This makes it difficult to determine the molecular cause of this disorder on the basis of the phenotype alone. Mutations in KDM5C (previously named SMCX or JARID1C), a gene that encodes a transcriptional regulator with histone demethylase activity specific for dimethylated and trimethylated H3K4, are a comparatively frequent cause of non-syndromic X-linked mental retardation (NS-XLMR). Specific transcriptional targets of KDM5C, however, are still unknown and the effects of KDM5C deficiency on gene expression have not yet been investigated., Results: By whole-mount in situ hybridisation we showed that the mouse homologue of KDM5C is expressed in multiple tissues during mouse development.We present the results of gene expression profiling performed on lymphoblastoid cell lines as well as blood from patients with mutations in KDM5C. Using whole genome expression arrays and quantitative reverse transcriptase polymerase chain reaction (QRT-PCR) experiments, we identified several genes, including CMKOR1, KDM5B and KIAA0469 that were consistently deregulated in both tissues., Conclusions: Our findings shed light on the pathological mechanisms underlying mental retardation and have implications for future diagnostics of this heterogeneous disorder.

Published
2010
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72. Mapping of QTL on chromosome X for fat deposition, muscling and growth traits in a wild boar x Meishan F2 family using a high-density gene map.

Author

Cepica S, Bartenschlager H, and Geldermann H

Subjects
Animals, Chromosome Mapping, Female, Genetic Linkage, Genetic Markers, Male, Microsatellite Repeats, Muscle Development, Swine anatomy & histology, Swine growth & development, Body Fat Distribution, Quantitative Trait Loci, Swine genetics, X Chromosome
Abstract

Quantitative trait loci (QTL) for fat deposition, growth and muscling traits have been previously mapped on the basis of low-density linkage maps in a wild boar x Meishan F2family to the chromosome X region flanked by SW2456 and SW1943. Improved QTL resolution was possible using data for F2 animals with a marker density of 2.7 cM distance in the SW2456 to SW1943 region, including AR, SERPINA7 and ACSL4 as candidate genes. The resolution of the QTL scan was increased substantially, as evidenced by the higher F-ratio values for all QTL. Maxima of F-ratio values for fat deposition, muscling and growth traits were 28.6, 18.2 and 16.5 respectively, and those QTL positions accounted for 7.9%, 5.0% and 4.5% of the F2 phenotypic variance (VF2) respectively. QTL for fatness and growth and for most muscling traits mapped near ACSL4, with the exception of the QTL for ham traits that mapped proximally, in the vicinity of AR. An analysis performed separately for F2 male animals showed the predominant QTL affecting fat deposition traits (up to 13.6% VF2) near AR and two QTL for muscling traits (up to 9.9% VF2) mapped close to ACSL4. In the F2 female animals, QTL affecting muscling (up to 12.1% VF2) mapped at ACSL4 and SW2456, and QTL for fat deposition (10% VF2) and growth (up to 10.5% VF2) mapped at ACSL4.

Published
2007
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73. Polymorphic microsatellite sites in the PRNP region point to excess of homozygotes in Creutzfeldt-Jakob disease patients.

Author

Geldermann H, Bartenschlager H, Preuss S, Melchinger-Wild E, Herzog K, and Zerr I

Subjects
Adult, Aged, Aged, 80 and over, Alleles, Case-Control Studies, Codon genetics, Female, Genotype, Haplotypes, Homozygote, Humans, Male, Microsatellite Repeats, Middle Aged, Phenotype, Polymorphism, Genetic, Prion Proteins, Creutzfeldt-Jakob Syndrome genetics, Prions genetics
Abstract

Polymorphic microsatellite sites within 148 kb of the human prion gene complex, including the genes PRNP, PRND and PRNT, were analysed together with the Codon129 variants regarding 50 CJD (Creutzfeldt-Jakob Disease) patients and 46 non-diseased control persons. Three of the sites (MM03, MM04, Codon129) differed significantly (P<0.05) for their allele frequencies between the two groups--the predominant allele being always more frequent in the CJD group. Deviations from Hardy-Weinberg Equilibrium were mainly obtained in the CJD group--in all cases with a reduction of the observed heterozygosity. The sites MM03, MM04 and Codon129 were also analysed for their haplotypes. The predominant homozygous haplotype combination was more frequently observed in the CJD group (0.875) than in the non-diseased group (0.38). Thus the different polymorphic sites indicate that high CJD disposition is associated with homozygosity in the PRNP gene.

Published
2006
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74. Porcine OGN and ASPN: mapping, polymorphisms and use for quantitative trait loci identification for growth and carcass traits in a Meishan x Piétrain intercross.

Author

Stratil A, Van Poucke M, Bartenschlager H, Knoll A, Yerle M, Peelman LJ, Kopecný M, and Geldermann H

Subjects
Animals, Chromosome Mapping, Crosses, Genetic, Humans, Intercellular Signaling Peptides and Proteins, Microsatellite Repeats, Swine growth & development, Synteny, Glycoproteins genetics, Polymorphism, Single Nucleotide, Proteoglycans genetics, Quantitative Trait Loci, Swine genetics
Abstract

The porcine orthologues of human chromosome HSA9q22.31 genes osteoglycin (OGN) and asporin (ASPN) were mapped to porcine chromosome SSC3 using linkage analysis and a somatic cell hybrid panel. This mapping was refined to SSC3q11 using fluorescence in situ hybridization. These results confirm the existence of a small conserved synteny group between SSC3 and HSA9. Polymorphisms were revealed in both genes, including a pentanucleotide microsatellite (SCZ003) in OGN and two single nucleotide polymorphisms (AM181682.1:g.780G>T and AM181682.1:g.825T>C) in ASPN. The two genes were included in a set of markers for quantitative trait loci (QTL) mapping on SSC3 in the Hohenheim Meishan x Piétrain F2 family. Major QTL for growth and carcass traits were centred in the ASPN-SW902 region.

Published
2006
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75. OLA-DRB1 microsatellite variants are associated with ovine growth and reproduction traits.

Author

Geldermann H, Mir MR, Kuss AW, and Bartenschlager H

Subjects
Alleles, Animals, Female, Fertility genetics, Haplotypes, Male, Reproduction genetics, Histocompatibility Antigens Class II genetics, Microsatellite Repeats genetics, Sheep genetics, Sheep growth & development
Abstract

The DRB1 intron 2 (GT)(n)(GA)(m) microsatellite was genotyped in experimental flocks of seven Merinoland rams and 249 ewes as well as their offspring (381 lambs) from consecutive lambings. A total of 16 DRB1 alleles were detected, ranging between 353 and 857 bp. In comparison with carriers of other alleles, the ewes carrying the predominant 411 bp allele had higher values of all the recorded fertility traits. For ewes carrying the 394 and 857 bp alleles, the birth weight of lambs was about 400 g higher as compared to the residual group of ewes. The observed associations could be due to differences in disease resistance, cell recognition or tissue differentiation between carriers of various MHC haplotypes which can in turn affect individual fertility and growth performance.

Published
2006
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76. Comparative and genetic analysis of the porcine glucocerebrosidase (GBA) gene.

Author

Stratil A, Wagenknecht D, Van Poucke M, Kubícková S, Bartenschlager H, Musilová P, Rubes J, Geldermann H, and Peelman LJ

Subjects
Alleles, Animals, Chromosome Mapping, Cloning, Molecular, Electrophoresis, Agar Gel, Exons, Gene Frequency, Genetic Linkage, Genome, Humans, In Situ Hybridization, Fluorescence, Introns, Models, Genetic, Models, Molecular, Polymerase Chain Reaction, Polymorphism, Genetic, Polymorphism, Restriction Fragment Length, Protein Sorting Signals, Short Interspersed Nucleotide Elements, Swine, Glucosylceramidase genetics
Abstract

The genomic sequence of the porcine (Sus scrofa) glucocerebrosidase (GBA) gene (approximately 5.7 kb), encoding glucocerebrosidase (glucosylceramidase; acid beta-glucosidase; EC 3.2.1.45), was determined and compared with human (Homo sapiens) GBA and GBAP (pseudogene). The porcine gene harbours 11 exons and 10 introns, and the genomic organization is identical with human GBA. The exon sequences, coding for signal peptide and mature protein, show 81% and 90% sequence identity, respectively, with the corresponding human GBA sequences. Short interspersed elements, SINEs (PREs), are present in introns 2, 4 and 7. There is no evidence of a pseudogene in pig. The deduced protein sequence of GBA consists of 39 amino acids of signal peptide (long form) and 497 amino acids of the mature protein; the latter shows 90% sequence identity with the human protein. Four polymorphisms were observed within the porcine gene: insertion/deletion of one of the two SINEs (PREs) in intron 2 (locus PREA); deletion of a 37- to 39-bp stretch in intron 4 (one direct repeat and 5' end of PRE); deletion of a 47-bp stretch in the middle part of PRE in intron 4 (locus PREB); and single-base transition (C-T) in intron 6 (locus HaeIII-RFLP). GBA was assigned to chromosome 4q21 by FISH and was localized to the same region by linkage analysis and RH mapping, i.e., to the chromosome 4 segment where quantitative trait loci for growth and some carcass traits are located.

Published
2004
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77. QTL alleles on chromosome 7 from fatty Meishan pigs reduce fat deposition.

Author

Yue G, Beeckmann P, Moser G, Müller E, Bartenschlager H, Cepica S, Schröffel J, Stratil A, and Geldermann H

Subjects
Alleles, Animals, Animals, Wild anatomy & histology, Animals, Wild genetics, Chromosome Mapping, Female, Hybridization, Genetic, Least-Squares Analysis, Male, Microsatellite Repeats, Models, Genetic, Species Specificity, Swine anatomy & histology, Swine genetics, Adiposity genetics, Quantitative Trait Loci, Sus scrofa anatomy & histology, Sus scrofa genetics
Abstract

For detecting QTL in the whole swine genome, 1068 pigs from three F2 populations constructed by crossing European Wild boar and Pietrain (W x P), Meishan and Pietrain (M x P), and Wild Boar and Meishan (W x M) were genotyped for genetic markers evenly spaced at approximately 20 cM intervals. AQTL analysis was performed using a least-squares method. Here the results of the QTL analysis on the porcine chromosome 7 are presented. QTL for carcass composition (e.g. head weight, carcass length, backfat depth, abdominal fat and bacon meat) were mapped in the chromosomal region CYPA/CYPD-TNFB-S0102 in M x P and W x M, but not in W x P. The QTL explained 5.3%-27.2% of the F2 phenotypic variance in the two F2 populations. Most traits affected by the mapped QTL were related to carcass fatness. The mode of gene action of QTL was additive. Surprisingly, in contrast to the parental phenotype, the QTL alleles from fatty Meishan were associated with thinner backfat than Pietrain and Wild Boar alleles, suggesting that the genome of the fatty Meishan pig contains genes which can reduce fat content of carcass substantially.

Published
2003
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78. Identification of QTL affecting important traits on porcine chromosome 12.

Author

Yue GH, Bartenschlager H, Moser G, and Geldermann H

Subjects
Animals, Genetic Linkage, Growth Hormone genetics, Chromosome Mapping, Quantitative Trait, Heritable, Swine genetics
Abstract

To screen the whole porcine chromosome 12 for QTL affecting economically important traits, ten genetic markers were genotyped in two F2 populations generated from the cross of genetically diverse breeds: European Wild pig and commercial pig breed Pietrain (W x P), and Chinese Meishan and Pietrain (M x P). Fifty-one traits were recorded. A least squares method was used for chromosome-wide screening for QTL. An association analysis between genotypes at the GH locus and traits was also carried out. The least squares analysis did not reveal the presence of genome-wide significant QTL affecting the traits, while the association study showed significant (P < 0.01) associations between GH genotypes and fatness traits in M x P, but not in W x P. F2 pigs carrying the genotype C1A2/C4A2 at the GH locus displayed the thinnest backfat (21.76 mm), while the ones carrying the genotype C2A2/C2A2 had the thickest (31.41 mm).

Published
2000

79. Rapid and precise genotyping of porcine microsatellites.

Author

Yue GH, Beeckmann P, Bartenschlager H, Moser G, and Geldermann H

Subjects
Animals, Founder Effect, Genotype, Polymerase Chain Reaction, Quantitative Trait, Heritable, Swine, Microsatellite Repeats genetics
Abstract

Microsatellites are useful markers for genetic mapping and linkage analysis because they are highly polymorphic, abundant in genomes and relatively easily scored with polymerase chain reaction (PCR). A rapid genotyping system for microsatellites was developed, which included multiplex PCRs, multiple use of Hydrolink gels, automated fluorescent detection of fragments on an A.L.F. DNA sequencer, automatic assignment of alleles to each locus and verification of genotypes with a self-developed computer program "Fragtest". Eight multiplex PCRs have been developed to genotype 29 microsatellites for genetic and quantitative trait loci (QTL) mapping on pig chromosomes 6, 7, 12 and 13. Three to six microsatellites could be amplified in one multiplex PCR. Each multiplex reaction required only different concentrations of each pair of primers and a low concentration of dNTP (100 microM). A dNTP concentration of 100 microM proved to be optimal for the coamplification of microsatellites under the concentration of 1.5 mM MgCl2. Using four internal size standards added in each sample, the 5% Hydrolink gel could subsequently be used up to five times (total running time of 500 min) on the A.L.F. automated sequencer without significant loss of resolution and precision of fragment length analysis. Automatic assignment of alleles on each locus using "Fragtest" significantly increased the efficiency and precision of the genotyping. This system is thus a rapid, cheap, and highly discriminating genotyping system.

Published
1999
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80. [Experiences with Bisuc in stomach diseases].

Author

Bartenschlager HM

Subjects
Bicarbonates therapeutic use, Clinical Trials as Topic, Drug Combinations, Duodenal Ulcer drug therapy, Evaluation Studies as Topic, Foeniculum, Humans, Magnesium, Sodium Bicarbonate, Stomach Ulcer drug therapy, Antacids therapeutic use, Anti-Inflammatory Agents therapeutic use, Bismuth therapeutic use, Plants, Medicinal, Plants, Toxic, Rhamnus, Stomach Diseases drug therapy
Published
1973

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