Technique / Genetics / Genetic mapping / Radiation Hybrid Mapping

Nuclear transcription factor Y, beta (NFYB) was evaluated as candidate gene for congenital splay leg in piglets based on data from differential display and QTL analysis. We mapped NFYB to pig chromosome 5 (SSC5). By assigning further five porcine genes from the corresponding region on human chromosome (HSA) 12q23.3--> q24.11 to SSC5 and 14 we could confine an evolutionary breakpoint from an interval of more than 10 Mb to less than 400 kb. Comparative sequence analysis of the coding region of NFYB in healthy and splay leg piglets revealed no polymorphism. Inter-species conservation of the codons ranges from 87% to 95% between pig, human, cow, dog, rat and mouse, respectively. The expression of NFYB in M. biceps femoris was not different between healthy and splay leg piglets. However, healthy male piglets had a significantly higher expression than females. Our results exclude NFYB as candidate gene for congenital splay leg but provide a basis for selection of further candidates for the disease from SSC5.

rh_tsp_map is a software package for computing radiation hybrid (RH) maps and for integrating physical and genetic maps. It solves the central mapping instances by reducing them to the traveling salesman problem (TSP) and using a modification of the CONCORDE package to solve the TSP instances. We present some of the features added between the initial rh_tsp_map version 1.0 and the current version 3.0, emphasizing the automation of many steps and addition of various checks designed to find problems with the input data. Iterations of improved input data followed by fast re-computation of the maps improves the quality of the final maps. AVAILABILITY: rh_tsp_map source code and documentation including a tutorial is available at ftp://ftp.ncbi.nih.gov/pub/agarwala/rhmapping/rh_tsp_map.tar.gz. CONCORDE modified for RH mapping is available in the directory http://www.isye.gatech.edu/~wcook/rh/. The QSopt library needed for CONCORDE is available at http://www2.isye.gatech.edu/~wcook/qsopt/downloads/downloads.htm

Several quantitative trait loci for beef carcass traits have been mapped to bovine chromosome 5. The objective of this study was to map six candidate genes for these traits by fluoresence in situ hybridization, genetic linkage analysis and radiation hybrid mapping. MYF5 and MYF6 were assigned to 5q13, WIF1 to 5q23 and MMP19 to 5q25. A paralog of MYF5 (putatively MYOG) was assigned to 16q12. A novel microsatellite placed MYF5 and MYF6 10.4 cM from BM6026 and 19.1 cM from BL23 on the genetic linkage map. MYF5 (62.6 cR), WNT10B (319.5 cR), WIF1 (500.8 cR) and MMP19 (701.2 cR) were also integrated into the 5000(Rad) radiation hybrid map.