Hongbin Zha

Genetic map of nine polymorphic loci comprising a single linkage group on rat chromosome 10: evidence for linkage conservation with human chromosome 17 and mouse chromosome 11.

Seven genes and two anonymous markers were mapped to a single linkage group on rat chromosome 10 using progeny of an F2 intercross of Fischer (F344/N) and Lewis (LEW/N) inbred rats. Two genes, the neu oncogene or cellular homologue of the viral oncogene erbb2 (ERBB2) and growth hormone (GH) were mapped by Southern blot analysis of restriction fragment length polymorphisms. Five genes, embryonic skeletal myosin heavy chain (MYH3), androgen binding protein/sex hormone binding globulin (SHBG), asialoglycoprotein receptor (hepatic lectin)-1 (ASGR1), ATP citrate lysase (CLATP), and pancreatic polypeptide (PPY), and two anonymous markers, F16F2 and F10F1, were mapped using PCR amplification techniques. The PCR-typable polymorphic markers for the five genes were also highly polymorphic in 10 other inbred rat strains (SHR/N, WKY/N, MNR/N, MR/N, LOU/MN, BN/SsN, BUF/N, WBB1/N, WBB2/N, and ACI/N). These markers should be useful in genetic analysis of traits described in inbred rat strains, as well as in genetic monitoring of such strains. The loci in this linkage group covered 50 cM of rat chromosome 10 with the following order: MYH3, SHBG/ASGR1 (no recombinants detected), F16F2, ERBB2, CLATP, PPY, GH, and F10F1. Comparative gene mapping analysis indicated that this region of rat chromosome 10 exhibits linkage conservation with regions of human chromosome 17 and mouse chromosome 11.

Linkage map of 10 polymorphic markers on rat chromosome 2

Analysis of F2 intercross progeny of inbred F344/N x LEW/N rats led to the assignment of 10 polymorphic PCR-typable markers to rat chromosome 2. The markers form a single linkage group covering 47.9 cM with the following order: D2N1R-D2N28-FGG (gamma fibrinogen)-PKLR (liver and RBC pyruvate kinase)-ATP1A1 (the alpha-1 polypeptide of Na+/K+ transporting ATPase)-HSD3B (hydroxy-delta-5-steroid dehydrogenase)-D2N2R-D2N91-CAMKI (calmodulin-dependent protein kinase II)-D2N35. All but two of the markers (D2N1R and D2N2R) were detected using specific PCR primers flanking dinucleotide repeats. Sequences with dinucleotide repeats associated with five genes (FGG, PKLR, ATP1A1, HSD3B, and CAMKI) were identified in GenBank, and primers were designed to flank these repeats. The PCR primer pairs for three anonymous markers (D2N28, D2N91, and D2N35) were identified by sequencing cloned LEW/N rat genomic DNA containing (CA)n.(GT)n repeats. D2N1R and D2N2R were identified by PCR amplification of genomic DNA with single, nonspecific 10-base oligonucleotide primers. All of the markers were codominant except for D2N1R, D2N2R, and CAMKI, which only amplified from F344/N homozygous and heterozygous rat DNA. The seven codominant markers were highly polymorphic in 10 other inbred rat strains (SHR/N, WKY/N, MNR/N, MR/N, LOU/MN, BN/SsN, BUF/N, WBB1/N, WBB2/N, and ACI/N), suggesting that they will be useful for general mapping studies among these strains. Comparative gene mapping analysis indicated that a portion of the mapped region of rat chromosome 2 exhibits synteny conservation with regions of human chromosome 1 and mouse Chromosome 3.

Genetic mapping of the athymic nude (RNU) locus in the rat to a region on Chromosome 10

The nude trait in the rat is transmitted in an autosomal recessive manner and is associated with thymic aplasia, T-cell deficiency, and hairlessness. Congenic rats homozygous for the RNU (Rowett nude) locus are important models in the study of inflammatory disease, tumor growth, and transplant rejection. The RNU locus has not been previously mapped, and the nature of the gene product is unknown. To determine the map location of this gene, a single F344.rnu/rnu (athymic nude congenic Fischer rat) male congenic rat was bred with 3 LEW/N (NIH stock Lewis rat) female rats to produce F1 progeny. Twelve F1 brother-sister breeding pairs were established. Forty-nine phenotypically nude F2 offspring (198 total) were obtained. Linkage analysis done on F2 DNA revealed highly significant cosegregation between the nude phenotype and eight polymorphic markers located on Chromosome (Chr) 10. The tightest linkages were with: MYH3 (embryonic, skeletal myosin heavy chain) and SHBG (sex hormone-binding globulin), giving 2 point lod scores of 20.2, and 20.0, respectively. The map order and map distances, determined by multipoint linkage calculations, were: RR24-(16.1 cM)-MYH3-(3.5 cM)-SHBG-(4.7 cM)-RNU-(11.9 cM)-F16F2-(24.1 cM)-CLATP (citrate lyase ATPase)-(2.4 cM)-ACE (angiotensin converting enzyme)/PPY (pancreatic polypeptide)-(14.1 cM)-RR1023. The position of the RNU locus in the rat corresponds closely with that of the recently reported nu locus in the mouse. This finding suggests that the nude phenotype in the rat and the mouse arise from defects in homologous genes.

Linkage map of seven polymorphic markers on rat chromosome 18

A genetic linkage map of seven polymorphic markers was created with F2 intercross progeny of F344/N and LEW/N rats and assigned to rat Chromosome (Chr) 18. Five of the markers described were defined by simple sequence length polymorphisms (SSLPs) associated with five genes: transthyretin (TTR), trypsin inhibitor-like protein (TILP), β2 adrenergic receptor (ADRB2), olfactory neuron-specific G protein (OLF), and gap junction protein (GJA1). One marker was defined by a restriction fragment length polymorphism (RFLP) detected with a probe for the human colony stimulating factor 1 receptor (CSF1R) gene. The D18N1R locus was defined by an anonymous DNA fragment amplified by the randomly amplified polymorphic DNA (RAPD) technique with a single short primer. These seven DNA loci formed a single genetic linkage group 30.4 cM in length with the following order: TTR-6.8 cM-D18N1R-9.1 cM-TILP-4.3 cM-CSF1R-0 cM-ADRB2-10.2 cM-OLF-0 cM-GJA1. The five SSLP markers were highly polymorphic. In a total of 13 inbred rat strains analyzed (F344/ N, LEW/N, LOU/MN, WBB1/N, WBB2/N, MR/N, MNR/N, ACI/N, SHR/N, WKY/N, BN/SsN, BUF/N, and LER/N), three to six alleles were detected for each marker. Remarkable linkage conservation was detected between the region of rat Chr 18 mapped and a region of mouse Chr 18. However, genes associated with these markers have been mapped to three different human chromosomes (Chrs 5, 6, and 18). The markers described here should be useful for genetic mapping studies and genetic monitoring of inbred rat strains.

Ten polymorphic DNA loci, including five in the rat MHC (RT1) region, form a single linkage group on rat chromosome 20.

We have described ten markers for polymorphic loci on rat chromosome 20, including five in the rat MHC (RT1) region. These markers formed a single linkage group spanning a recombination distance of 0.40. The markers identified five expressed gene loci - RT1.N1 (thymus leukemia antigen 1), Tnfa (tumor necrosis factor {alpha}), Hspa1 (heat shock protein 70), Ggt1 ({gamma} glutamyl-transferase 1), and Prkacn2 (protein kinase C catalytic subunit binding inhibitor 2), two loci with sequences that are related to expressed genes - RT1.Aw2 (sequence related to a non-RT1A class I {alpha} chain) and Mt21 (sequence related to metallothionein 2), and three anonymous loci - D20Arb548, D20Arb234, and D20Arb249. These polymorphic markers should facilitate mapping studies and genetic monitoring of inbred rat strains. 18 refs., 2 figs., 3 tabs.

Map of seven polymorphic markers on rat Chromosome 14: linkage conservation with human Chromosome 4

Seven polymorphic markers identified by polymerase chain reaction (PCR) amplification, including markers for six genes—DRD1L (dopamine receptor, D1-like-2), GLUKA (glucokinase), PF4 (platelet factor 4), ALB (albumin), AFP (α-fetoprotein), and BSP (bone sialoprotein)—and one anonymous locus (D14N52), were mapped to a single 67-cM linkage group with F2 intercross progeny of F344/N and LEW/N inbred rat strains. Two of these markers, ALB and AFP, have previously been assigned to rat Chromosome (Chr) 14, allowing assignment of this entire linkage group. Five of the markers—DRD1L, PF4, ALB, AFP, and PBSP—have been physically mapped to a large region of human Chr 4 encompassing the p arm and the q arm to band q28. Homologs of two of the markers, ALB and AFP, have been mapped to Chr 5 in the mouse. Comparison of human Chr 4 with the homologous regions on Chr 14 of the rat and Chr 5 of the mouse indicated that linkage conservation with human Chr 4 extends over a greater region in the rat than in the mouse. The markers described here were found to be highly polymorphic in twelve inbred strains (F344/N, LEW/N, ACI/N, BUF/N, BN/SsN, LOU/MN, MNR/N, MR/N, SHR/N, WBB1/N, WBB2/N, and WKY/N). These polymorphic markers should be useful in genetic linkage studies of important phenotypes in rats.

A single linkage group comprising 11 polymorphic DNA markers on rat chromosome 3.

Eleven polymorphic DNA markers were mapped to rat Chromosome (Chr) 3 by linkage analysis of F2 progeny of F344/N and LEW/N rat strains. The markers, including seven genes and four anonymous loci, formed a single linkage group covering approximately 112 cM with the following order: Ptgs1 (prostaglandin G/H synthase I)-D3Arb178-Scn2a (sodium channel, type II, α-polypeptide)-D3Arb1-Cat (catalase)-Bdnf (brain-derived neurotrophic factor)-D3Arb219-D3Arb2-Sus2 (seminal vesicle secretion II protein)-Sdc4 (ryudocan/syndecan4)-Stnl (statin-like protein). Eight of these markers were analyzed for polymorphisms in 14 additional inbred rat strains. Three to five alleles were detected for each marker, suggesting that they are highly polymorphic and useful for genetic mapping studies with inbred rat strains. Chromosomal syntenic conservation among rats, mice and humans is also discussed.

Genetic map of seven polymorphic markers comprising a single linkage group on rat chromosome 5.

Seven polymorphic markers comprising a single linkage group were assigned to rat Chromosome (Chr) 5 by linkage analysis of the progeny of an F2 intercross of Fischer (F344/N) and Lewis (LEW/N) inbred rats. Three genes, α-L-fucosidase 1 (FUCA1), mitochondrial superoxide dismutase (SOD2), and glucose transporter (GLUT1), were mapped by restriction fragment length polymorphism (RFLP) analysis. Two genes, glucose transporter (GTG3) and elastase II (ELAII), one pseudogene for α tubulin (TUBAPS), and one sequence related to the 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase gene (PFKFBP1-related sequence) were mapped by simple sequence repeat (SSR) polymorphism analysis. The loci are in the following order: SOD2, GTG3/GLUT1, FUCA1, ELAII/PFKFBP1-related sequence, and TUBAPS. This linkage group covered 68.3 cM of rat Chr 5. The SSR markers were highly polymorphic in 13 inbred rat strains (SHR/N, WKY/N, MNR/N, MR/N, LOU/MN, BN/SsN, BUF/N, WBB1/N, WBB2/N, ACI/N, LER/N, F344/N, and LEW/N). These markers, located on rat Chr 5, will be useful in genetic studies of inbred rats.

The rat athymic nude (rnu) locus is closely linked to the inducible nitric oxide synthase gene (Nos2).

The nude trait in the rat is transmitted in an autosomal recessive manner and is associated with thymic aplasia, T-cell deficiency, and hairlessness. Congenic rats homozygous for the rnu (Rowett nude) locus are important models in the study of inflammatory disease, tumor growth, and transplant rejection. The rat nude locus has been previously mapped on Chromosome (Chr) 10 by our lab, using the F 2 progeny of F344.rnu/rnu x LEW, rN (Cash et al. 1993), and by Kuramoto and coworkers, using the backcross progeny of (ACI x F344 /N-RONU/RONU)F 1 x F344 /N-RONU/RONU (Kuramoto et al. 1993). Our previous studies localized the nude locus to a 15-cM interval between two markers, Myh3 and DIOArbl (previously F16F1; Cash et al. 1993). To localize this gene more precisely, we have identified three new markers in this region as part of a genome-wide search for polymorphisms. These new markers narrow the nude locus area to an interval one-third the size of that previously reported. Animals (including F 2 progeny) and DNAs extracted from the liver of each animal analyzed in the present study were the same as those used previously (Cash et al. 1993). Of three new markers mapped, Asgrl [asialoglycoprotein receptor (hepatic rectin-1)] and DlOArb305 (anonymous) were simple sequence length polymorphic (SSLP) markers, and Nos2 (inducible nitric oxide synthase II) was an RFLP marker. Rat genomic sequences containing simple sequence repeats (SSRs) were either obtained from GenBank [Asgrl; this locus has been mapped on rat Chr 10 with a (F344/N x LEW/N) F 2 cross; Remmers et al. 1992] or identified from a rat genomic library (DlOArb305) by sequencing plasmid inserts of positive colonies hybridized to a (CA)is probe (Zha et al. 1993). Design of primer pairs flanking these SSRs and identification of polymorphisms were performed as previously described (Remmers et al. 1992). To identify an RFLP associated with Nos2, which was recently mapped in humans and mice to a region that exhibits linkage conservation with the portion of rat Chr 10 that includes the rnu locus, genomic DNAs (10 gg) from F344.rnu/rnu, LEW/N and F 1 rats were digested with each of 12 restriction endonucleases. The fragments were separated by electrophoresis on 1% agarose gels, transferred to nylon membranes (Nytran, Schleicher and Schuell, Keene, N.H.), and hybridized to 32p_ labeled, random-primed rat cDNA insert (1.46 kb) cut with EcoRI from cloned rat Nos2 cDNA (clone 24-31 containing fragment F4-Fs; Wood et al. 1993). Hybridization and washing (0.2 x SSC, 1% SDS) were performed at 56~ Polymorphic fragment allele sizes were estimated by comparison with ethidium bromidestained molecular weight standards run on the same gel. Forty F 2 nude phenotype progeny were genotyped for each of the three new polymorphic markers. Nineteen additional unaffected F 2 animals were also genotyped for the marker Nos2. Mul-

Genetic map of 16 polymorphic markers forming three linkage groups assigned to rat Chromosome 4

Sixteen polymorphic markers, including markers for eight new loci, forming three linkage groups, were assigned to rat Chromosome (Chr) 4 by linkage analysis of the progeny of an F2 intercross of Fischer (F344/N) and Lewis (LEW/N) inbred rats. One gene, Igk, was mapped by restriction fragment length polymorphism (RFLP) analysis. One marker for Tcrb was identified by the polymorphic insertion of a repetitive LINE element. The remaining 14 markers contained polymorphic simple sequence repeats (SSRs). Ten were identified in genes (Tgfa, Npy, Prss1, Prss2, Aldr1, Iapp, Prp, Eno2, Cacnlla1, and Il6), one was identified in a sequence related to a gene (Egr4l1), and three were identified in anonymous DNA segments. The SSR markers were highly polymorphic in 16 inbred rat strains. These markers expand the genetic map of the rat and should be useful in future genetic studies of inbred rats.