1,721,030 research outputs found
Water Buffalo (bubalus bubalus Arneee) allotypes: Identification of two specificities controlled by indipendent genes
No full textTwo water buffalo allotypes (B1 and C1) are described, which are located on distinct low molecular weight molecules. B1 is common to water buffalo and cattle. These two markers are inherited in a simple Mendelian manner and controlled by two independent genes
Immunogenetics of the D1 serum antigen of rhesus monkey (Macaca mulatta)
No full textThe paper describes a rhesus monkey serum antigen (D1) which is controlled by a dominant gene (D1), independent from those controlling A1, B1 and C1, which are three low-density lipoprotein markers
Mouse monoclonal antibodies detect an allotypic determinant common to several ruminant species
No full textA monoclonal antibody against goat immunoglobulins recognizes an allotypic determinant (A1) which is common to goat, sheep, cattle and water buffalo. The frequency of the corresponding gene (A') is about the same in all four species, indicating the existence of a polymorphism that remained stable over a period of about 18-20 million years
Immunogenetics of the McB1 macroglobulin allotype in cattle
No full textThe paper describes a cattle serum antigen (McB1) which is controlled by a dominant gene (McB1), independent from those controlling the two macroglobulin markers McA1 and McA2 as well as from that controlling the low-density lipoprotein marker Ld1A1. McB1 is located on a high-molecular-weight serum protein which, very likely, is an alpha2-macroglobulin
Immunogenetics of the McB1 macroglobulin allotype in cattle
No full textThe paper describes a cattle serum antigen (McB1) which is controlled by a dominant gene (McB1), independent from those controlling the two macroglobulin markers McA1 and McA2 as well as from that controlling the low-density lipoprotein marker Ld1A1. McB1 is located on a high-molecular-weight serum protein which, very likely, is an alpha2-macroglobulin
Genetics of host protection against Helicobacter pylori infections
No full textThis narrative review discusses the genetics of protection against Helicobacter pylori (Hp) infection. After a brief overview of the importance of studying infectious disease genes, we provide a detailed account of the properties of Hp, with a view to those relevant for our topic. Hp displays a very high level of genetic diversity, detectable even between single colonies from the same patient. The high genetic diversity of Hp can be evaded by stratifying patients according to the infecting Hp strain. This approach enhances the power and replication of the study. Scanning for single nucleotide polymorphisms is generally not successful since genes rarely work alone. We suggest selecting genes to study from among members of the same family, which are therefore inclined to cooperate. Further, extending the analysis to the metabolism would significantly enhance the power of the study. This combined approach displays the protective role of MyD88, TIRAP, and IL1RL1 against Hp infection. Finally, several studies in humans have demonstrated that the blood T cell levels are under the genetic control of the CD39+ T regulatory cells (TREGS)
Role of epigenetics in type 2 diabetes and obesity
No full textEpigenetic marks the genome by DNA methylation, histone modification or non-coding RNAs. Epigenetic marks instruct cells to respond reversibly to environmental cues and keep the specific gene expression stable throughout life. In this review, we concentrate on DNA methylation, the mechanism often associated with transgenerational persistence and for this reason frequently used in the clinic. A large study that included data from 10,000 blood samples detected 187 methylated sites associated with body mass index (BMI). The same study demonstrates that altered methylation results from obesity (OB). In another study the combined genetic and epigenetic analysis allowed us to understand the mechanism associating hepatic insulin resistance and non-alcoholic disease in Type 2 Diabetes (T2D) patients. The study underlines the therapeutic potential of epigenetic studies. We also account for seemingly contradictory results associated with epigenetics
Water Buffalo (bubalus bubalus Arneee) allotypes: Identification of two specificities controlled by indipendent genes
No full textTwo water buffalo allotypes (B1 and C1) are described, which are located on distinct low molecular weight molecules. B1 is common to water buffalo and cattle. These two markers are inherited in a simple Mendelian manner and controlled by two independent genes
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