The apolipoprotein CII gene: Subchromosomal localisation and linkage to the myotonic dystrophy locus

Summary The human apolipoprotein CII gene probe detects a restriction fragment length polymorphism located on chromosome 19. We have investigated the linkage of this polymorphism to the myotonic dystrophy locus in families. The two lici are closely linked with a maximum Lod score of 7.877 at 4% recombination. The close linkage and informativeness of the APOC2 polymorphism suggest that this probe may be of use for presymptomatic diagnosis of the myotonic dystrophy gene. The APOC2 gene was localised to the region 19p13–19q13 using somatic cell hybrids, providing further evidence that the myotonic dystrophy locus is situated in the central region of chromosome 19.     

Restriction fragment length polymorphism among Israeli Holstein-Friesian dairy bulls

Israeli Holstein-Friesian dairy bulls were screened for restriction fragment length polymorphisms by hybridizing cloned DNA probes for bovine growth hormone, for chymosin, and for rat muscle beta-actin to restriction endonuclease-digested DNA immobilized on nitrocellulose filters. The population proved to be polymorphic at the growth hormone locus, with evidence consistent with the phenotypes being inherited in allelic fashion. A low level of polymorphism was also observed at one of the beta-actin gene family loci. The chymosin locus was monomorphic with the restriction enzymes utilized. The results illustrate the power of restriction fragment length polymorphism methodology in visualizing genetic variability in dairy cattle populations.     

Chromosome 13 restriction fragment length polymorphisms

Summary The gene locus for hereditary retinoblastoma is on human chromosome 13, band q14. With this gene localization in mind, we cloned DNA fragments from this chromosome. Three of the fragments identify restriction fragment length polymorphisms. These three fragments are from the region 13q12–13q22, the chromosome region which contains the retinoblastoma locus. We expect that these restriction fragment length polymorphisms will be linked to the retinoblastoma locus, and that they will serve in certain retinoblastoma families as predictors of retinoblastoma gene carriers.They will also be useful in studies of other gene loci thought to be on chromosome 13.This research was supported by grants from the National Institutes of Health HD04807, CA29883, and EY04543, by a grant from Fight for Sight, Inc., New York City, and by the Anna Fuller Fund     

MspI andHindIII restriction fragment length polymorphisms at the human Na,K-ATPase β-subunit (ATP1B) gene locus

The authors report on four restriction fragment length polymorphisms detected at the ATP1B gene locus with the restriction endonucleasesHindIII andMspI.     

NsiI andScaI restriction fragment length polymorphisms at the atrial natriuretic peptides (ANP) gene locus

Summary The authors report on two new restriction fragment length polymorphisms at the human atrial natriuretic peptide gene locus, detected in three families with restriction endonucleasesScaI andNsiI.     

Association of the NAD(P)H-bispecific nitrate reductase structural gene with the Nar7 locus in barley.

The NADH-specific and NAD(P)H-bispecific nitrate reductase genes from barley have been cloned and sequenced. To determine if the Nar7 locus encodes the NAD(P)H-bispecific nitrate reductase structural gene, a cross was made between a wild-type cultivar, Morex (Nar7 Nar7), and Az70 (nar7w nar7w), a mutant from the cultivar Steptoe that is deficient in NAD(P)H-bispecific nitrate reductase activity. A probe specific to the NAD(P)H-bispecific nitrate reductase structural gene detected restriction fragment length polymorphism between the parents. This probe was used to classify selected F2 progeny for restriction fragment length genotype. All the NAD(P)H nitrate reductase deficient F2 progeny (24/101) possessed the Az70 restriction fragment genotype. The absence of recombination between the NAD(P)H-bispecific nitrate reductase deficient genotype and the NAD(P)H-bispecific nitrate reductase restriction fragment length genotype indicates that the two traits are closely associated in inheritance and that Nar7 is probably the NAD(P)H-bispecific nitrate reductase structural gene.     

The locus for apolipoprotein CII is closely linked to the apolipoprotein E locus on chromosome 19 in man

Summary We have demonstrated close linkage between the genes for apolipoprotein E (apoE) and apolipoprotein CII (apoCII). Families segregating for apoE protein variants were screened for a DNA restriction fragment length polymorphism close to the apoCII gene by using an apoCII cDNA clone. The maximum lod score is 4.52 (sexes combined) at a recombination frequency of zero. Given linkage, it may be assumed that no recombinations have happened in altogether 33 observed meioses. It is therefore evident that the apoCII gene is situated on chromosome 19, close to the apoE gene.     

Novel restriction fragment length polymorphism of the growth hormone gene in inbred rats

A novel restriction fragment length polymorphism in inbred rats was detected by Southern blot analysis with rat growth hormone cDNA as a probe. Four alleles, characterized by PstI fragments of 1.2, 1.1, 0.9, and 0.7 kb, respectively, were detected in 27 strains examined. The same distribution of polymorphisms was observed on digestion of DNAs of these strains with three other enzymes, PvuII, HindIII, and BamHI. Moreover, the same differences in length of allelic restriction fragments were obtained with these restriction enzymes as with PstI. These findings suggested that the polymorphism was caused by insertion or deletion of variable DNA segments in the second intron of the growth hormone gene. Linkage analyses using backcross progeny provided no evidence for close linkage between the restriction fragment length polymorphism locus and 10 other loci examined.     

PCR-RFLP typing of the bovine myoglobin gene

We have identified substitutions in the 3₁ untranslated region of the bovine myoglobin gene, one of which affects an MboII restriction enzyme site resulting in a bi-allelic restriction fragment length polymorphism. Co-dominant inheritance of the alleles in three reference families was observed using a polymerase chain reaction—restriction fragment length polymorphism assay. The distribution of the alleles seems characteristic of cattle type—one of the alleles was not detected in purely taurine breeds. Furthermore, we mapped, using the polymerase chain reaction on a bovine–rodent somatic cell hybrid panel, the myoglobin gene to bovine chromosome five. It is therefore syntenic with γ-interferon and insulin-like growth factor in which we have not found polymorphism. The myoglobin locus therefore serves as a type one marker on bovine chromosome five.     

X-linked immunodeficiency with hyperimmunoglobulinemia M appears to be linked to the DXS42 restriction fragment length polymorphism locus

Summary The gene involved in X-linked immunodeficiency with hyperimmunoglobulinemia M (XHM) was localized by the use of nine restriction fragment length polymorphic (RFLP) markers covering the entire X chromosome. Multipoint linkage analysis of RFLP data obtained in a three generation XHM pedigree indicates the Xq24-q27 area around the DXS42 RFLP locus as the most likely localization of the XHM locus.     

Genetic polymorphism of a bovine t-complex gene (TCP1) linkage to major histocompatibility genes

Southern blot analysis of genomic cattle DNA was carried out using murine cDNA probes representing the Tcp-1 gene of the t complex. Excellent cross-hybridization was obtained, and the probes apparently hybridized to at least two bovine TCP1 genes. Two independent restriction fragment length polymorphisms, each composed of two allelic variants, were detected; the inheritance of the restriction fragment length polymorphisms was confirmed by family data. One of the restriction fragment length polymorphisms, designated TCP1B, was evidently due to a gene duplication and was revealed with any restriction enzyme used. The duplication was found in three different cattle breeds investigated. Family segregation data indicated that TCP1B is linked to major histocompatibility complex genes. The result was consistent with close linkage to the major histocompatibility complex class II DO beta gene, whereas a fairly high recombination frequency was indicated between TCP1B/DO beta and other major histocompatibility complex genes. The result assigns TCP1B to a bovine linkage group previously comprising major histocompatibility complex class I and class II genes and blood group locus M. The similarity between this linkage group and parts of mouse chromosome 17 (t-H-2) and human chromosome 6 (TCP1-HLA) is discussed.     

Construction of a high-density linkage map of Italian ryegrass (Lolium multiflorum Lam) using restriction fragment length polymorphism, amplified fragment length polymorphism, and telomeric repeat associated sequence markers.

To construct a high-density molecular linkage map of Italian ryegrass (Lolium multiflorum Lam), we used a two-way pseudo-testcross F1 population consisting of 82 individuals to analyze three types of markers: restriction fragment length polymorphism markers, which we detected by using genomic probes from Italian ryegrass as well as heterologous anchor probes from other species belonging to the Poaceae family, amplified fragment length polymorphism markers, which we detected by using PstI/MseI primer combinations, and telomeric repeat associated sequence markers. Of the restriction fragment length polymorphism probes that we generated from a PstI genomic library, 74% (239 of 323) of randomly selected probes detected hybridization patterns consistent with single-copy or low-copy genetic locus status in the screening. The 385 (mostly restriction fragment length polymorphism) markers that we selected from the 1226 original markers were grouped into seven linkage groups. The maps cover 1244.4 cM, with an average of 3.7 cM between markers. This information will prove useful for gene targeting, quantitative trait loci mapping, and marker-assisted selection in Italian ryegrass.     

Taq I-generated HLA-DQ αpolymorphism in Japanese patients with narcolepsy

Taq I-generated HLA-DQrestriction fragment length polymorphism was examined in Japanese patients with narcolepsy. All patients were DR2 positive and shared a 6.0 kb fragment, although this fragment was found only in 54 % of the healthy DR2-positive Japanese. This finding added the DQ gene to the list of candidates for the possible narcolepsy-susceptibility gene. In contrast, there was no complete association between narcolepsy and DXrestriction fragment length polymorphism. These findings suggest that a narcolepsy-susceptibility gene is located closer to the DQ locus than to the DX locus.     

Mendel's stem length gene (Le) encodes a gibberellin 3 beta-hydroxylase.

We describe the isolation of the Le gene of pea, which controls internode elongation and originally was described by Mendel. Heterologous screening of a pea cDNA library yielded a partial clone that was 61% identical to coding regions of the putative Arabidopsis gibberellin 3 beta-hydroxylase gene, GA4. DNA gel blot analysis with this cDNA revealed a HindIII restriction fragment length polymorphism between pea isolines differing at Mendel's Le locus. Genomic clones of the GA4-related gene were isolated from the Le and le isolines. Polymerase chain reaction combined with restriction fragment length polymorphism analysis were used to show that the gene mapped to the Le locus. A cDNA containing a complete open reading frame of the pea GA4-related gene was amplified by polymerase chain reaction from each isoline. Recombinant expression in Escherichia coli demonstrated that the product of the Le cDNA was a gibberellin 3 beta-hydroxylase that is able to convert GA20 to the bioactive GA1. Substantially reduced levels of gibberellin 3 beta-hydroxylase activity were measured, after expression of the le cDNA, by using identical methods. This reduced activity was associated with an alanine-to-threonine substitution in the predicted amino acid sequence of the enzyme near its proposed active site.     

A NlaIII polymorphism within the human factor VII gene

The polymorphism is located within exon 5 of the human coagulation factor VII gene and is silent at the amino acid level. The distribution pattern is similar in Caucasians and African Americans. This polymorphism may be useful for restriction fragment length polymorphism (RFLP) diagnosis of factor X deficiency as well as factor VII deficiency, since the factor X gene is closely linked to the factor VII locus.     

Association analysis of lipid levels and apolipoprotein restriction fragment length polymorphisms

Summary We have analyzed the correlation between restriction site variants (RFLPs; restriction fragment length polymorphisms) of the apolipoprotein AI, AII, B, CI and CII genes and serum lipid levels in a sample of male Norwegians. We find no significant association between any of the RFLPs and lipid levels.     

Identification of a 118-kb DNA fragment containing the locus of blast resistance gene Pi-2(t) in rice

Rice blast disease, caused by the fungal pathogen Pyricularia grisea Sacc., is one of the most devastating crop diseases worldwide. Previous studies have shown that the dominant blast resistance gene Pi-2(t) confers resistance to a broad spectrum of pathogenic strains. Using a population of 292 recombinant inbred lines combined with bioinformatic analysis, we mapped Pi-2(t) between the SSR (simple-sequence repeat) marker SSR140 and the RFLP (restriction fragment length polymorphism) marker JSH12, 0.9 cM from both SSR140 and JSH12. A physical map consisting of six overlapping BAC (bacterial artificial chromosome) clones was anchored to the region containing the Pi-2(t) locus. By analyzing recombination events in this region, the Pi-2(t) locus was localized to a DNA fragment of 118 kb in length. The detailed genetic and physical maps of the Pi-2(t) locus will facilitate both molecular isolation of the gene and marker-assisted transfer of the gene in breeding programs.     

Restriction fragment length polymorphism of a bovine T-cell receptor ß gene

Genetic polymorphism of a bovine T-cell receptor beta gene was investigated by analysing restriction fragment length polymorphism (RFLP). One locus, denoted TCRB, with four allelic variants was revealed. The relationship between alleles at the TCRB locus and bull breeding values for disease and milk production was investigated in a sample of 196 progeny-tested AI bulls of the Swedish Red and White breed. The statistical evaluation of the data revealed no convincing association between TCRB alleles and any of the traits studied.