Clonal cells from embryonic retinal cell lines express qualitative electrophysiological differences.

Cells from the embryonic quail retina were immortalized with the v-mil oncogene and cloned by limiting dilution. Their phenotype was examined using the whole-cell patch clamp method. Three membrane currents, IK(IR), INa and IK, were found at different frequencies within a sample of 170 cells drawn from a large clone. Nearly all combinations of these three markers were found and the frequency of combinations showed that the markers assorted independently. Examination of clones of less than 10 cells showed that heterogeneity originates with a high probability within clones, arguing that chromosomal mutation, for example, is unlikely to account for phenotypic diversity. A possible explanation is that phenotypic differences between cells might reflect the local exchange of instructive signals. If so, then the genes for the three phenotypic markers are controlled independently.     

The subpopulation of mesenchymal stem cells that differentiate toward cardiomyocytes is cardiac progenitor cells

Mesenchymal stem cells (MSCs) are regarded as a promising source of cell-based therapy for heart injury. In fact, less than 30% of MSCs contribute to cardiomyocytes differentiation, and the isolation procedure and biological characteristics of this population of cells remain unknown. Here we isolate and investigate the biological characteristics of this subpopulation of MSCs. Twenty four MSC clones were randomly selected using single-cell monoclonal technology. After induced with 5-azacytidine, eight clones displayed cardiomyocyte-like morphologies, and highly (over 90%) expressed cardiac-specific markers cTnT and α-actin, and displayed transient outward K⁺ current (I_to), inwardly rectifying K⁺ current (I_K1) and delayed rectifier K⁺ current (I_KDR), which were typical of cardiomocytes. Other clones merely showed I_to current, and the current densities were different from those of cardiomyocytes. In contrast to the other clones, before induced with 5-azacytidine, the eight clones expressed early cardiac markers GATA4 and NKX2.5, but not cTnT, α-actin, CD44 and CD90, and had no potentials for adiopogenesis, osteogenesis or chondrogenesis after induction. Our data suggest that the subgroup of MSCs that contributes to cardiomyocytes differentiation is cardiac progenitor cells. Moreover, we show the preliminary purification of this population of cells with a high potential for cardiomyocytes differentiation using single-cell monoclonal technology.     

Condition cycles in juvenile Pagrus auratus

Nutritional condition was measured in juvenile snapper Pagrus auratus (<200 mm fork length) using three indices: relative condition index (I_c), hepatosomatic index (I_H) and digesto-somatic index (I_D). In a laboratory starvation experiment, all three indices declined substantially over a 24-day period, but I_H was most sensitive. In wild snapper I_c and I_H showed no diel cycles. I_D for 0+ snapper showed a strong diel cycle consistent with continuous feeding during daylight hours and lack of feeding during the night. I_D for 1+ snapper showed no diel cycle. Subsequent analyses were restricted to daytime samples for I_H and morning samples for I_D to minimize the confounding effect of time of day. I_c, I_H and I_D were monitored at one site at approximately bi-monthly intervals over a period of 3.25 years. All three indices varied significantly, but only I_D and I_H displayed seasonal cycles. I_D peaked in late summer-autumn and dropped to a minimum in winter, due to seasonal fluctuations in the feeding rate that probably reflected variations in metabolic and growth rates. I_H peaked in autumn-winter and declined to a minimum in summer, thus lagging 4–6 months behind I_D. I_H varied significantly among four sampling sites for all five combinations of sampling periods and year classes, whereas I_c varied significantly among sites for only one of the five combinations. The Kawau Bay site, which supported the highest density of snapper, had the highest I_H for all except one of the combinations. This suggests that juvenile snapper aggregate selectively at sites that provide optimal feeding conditions. However, no relationship was found between I_H and growth rate, indicating that better nutritional condition may not translate into faster growth.     

Symmetrical segregation of potassium channels at cytokinesis

To determine how voltage-gated ion channels segregate between sibling cells at cytokinesis, we used a whole-cell patch clamp to measure the electrophysiological phenotypes of siblings within 45 min of division. Recently born siblings in an immortalized line of embryonic retinal cells were identified as pairs of spherical cells adhering to one another. All siblings were electrically coupled when cells were simultaneously voltage clamped, whereas nonsiblings were not coupled. Twelve paris of siblings were electrically isolated by mechanical separation so that their phenotypes could be measured independently. Cells expressed two principal membrane conductances, delayed rectifier-like (I_K) and inward rectifier (I_K(IR)) potassium currents. Despite qualitative and quantitative variability in I_K and I_K(IR) expression within the population, each cell of a given pair expressed similar steady-state current densities between –110 and +50 mV. We estimated I_K(IR) slope conductance by blocking the current specifically with 5 mM Cs and calculated I_K(IR) ratios in siblings and nonsiblings. Three pairs of siblings expressed I_K(IR) ratios of approximately 1.2, while ratios in three pairs of adhered nonsiblings varied between 1.6 and 5.4. When currents were sampled continuously through cytokinesis by using the perforated-patch recording mode, current amplitude showed no net change within 30 min of division. Because channel number did not appear to change in siblings during this interval, parental channels were inherited by each daughter in proportion to the area of membrane received. Heterogeneity therefore arises after siblings reenter interphase and is not due to the asymmetrical segregation of channels at cytokinesis. © 1993 John Wiley & Sons, Inc.     

Deletion mapping of mitochondrial transfer RNA genes in Saccharomyces cerevisiae by means of cytoplasmic petite mutants

Summary Mitochondrial transfer RNA genes have been ordered relative to the position of five mitochondrial drug resistance markers, namely, chloramphenicol (C), erythromycin (E), oligomycin I and II (O_I, O_II), and paromomycin (P). Forty-six petite yeast clones that were genetically characterized with respect to these markers were used for a study of these relationships. Different regions of the mitochondrial genome are deleted in these individual mutants, resulting in variable loss of genetic markers. Mitochondrial DNA was isolated from each mutant strain and hybridized with eleven individual mitochondrial transfer RNAs. The following results were obtained: i) Of the seven petite clones that retained C, E, and P resistance markers (but not O_I or O_II), four carried all eleven transfer RNA genes examined; the other three clones lost several transfer RNA genes, probably by secondary internal deletion; ii) Prolyl and valyl transfer RNA genes were located close to the P marker, whereas the histidyl transfer RNA gene was close to the C marker; iii) Except for a glutamyl transfer RNA gene that was loosely associated with the O_I region, no other transfer RNA genes were found in petite clones retaining only the O_I and/or the O_II markers; and iv) Two distinct mitochondrial genes were found for glutamyl transfer RNA, they were not homologous in DNA sequence and were located at two separate loci.The data indicate that the petite mitochondrial genome is the result of a primary deletion followed by successive additional deletions. Thus an unequivocal gene arrangement cannot be readily established by deletion mapping with petite mutants alone. Nevertheless, we have derived a tentative circular map of the yeast mitochondrial genome from the data; the map indicates that all but one of the transfer RNA genes are found between the C and P markers without forming a tight cluster. The following arrangement is suggested:-P-pro-val-ile-(phe, ala, tyr, asp)-glu₂-(lys-leu)-his-C-E-O_I-glu₁-O_II-P-.Supported in part by Cancer Center CCRC 111B-3. Present address: Laboratoire de Biologie Generale, Universite Paris-Sud Orsay, 91405, FranceThe Franklin McLean Memorial Research Institute is operated by the University of Chicago for the U.S. Energy Research and Development Administration under Contract E(11-1)69     

Fine physical mapping of the rice stripe resistance gene locus, Stvb-i

The Stvb-i gene confers stripe disease resistance to rice. For positional cloning, we constructed a physical map spanning 1.8-cM distance between flanking markers, consisting of 18 bacterial artificial chromosome (BAC) clones, around the Stvb-i locus on rice chromosome 11. The 18 clones were isolated by screening a BAC library derived from a japonica cultivar, Shimokita, with three Stvb-i-linked RFLP markers and DraI-digested DNAs of a yeast artificial chromosome (YAC) clone. The results of Southern hybridization and restriction enzyme analyses indicated that these BAC clones are contiguous and cover about a 700-kb region containing the Stvb-i allele. Utilizing end and internal fragments of the BAC insert DNAs, 33 molecular markers were generated within a small chromosomal region including the Stvb-i locus. Genotyping analysis with these markers for a resistant cultivar and four nearby recombinants selected from 120 F₂ individuals indicated that Stvb-i is contained within an approximately 286-kb region covered with two overlapping BAC clones. Received: 25 August 1999 / Accepted: 16 November 1999     

Generation and exploration of a dense genetic map in a region of a QTL affecting corpora lutea in a Meishan × Yorkshire cross

Previously genomic scans revealed quantitative trait loci (QTL) on porcine Chromosome 8 (SSC8) as significantly affecting the number of corpora lutea (CL) in swine. In one study, statistical evidence for the putative QTL was found in the chromosomal region defined by the microsatellites (MS) SW205, SW444, SW206, and SW29. A Yeast Artificial Chromosome library was screened by using the corresponding primers for clones containing these MS by PCR. From five positive YAC clones, 10 additional MS were isolated and mapped to SSC8 with the INRA-University of Minnesota porcine Radiation Hybrid (IMpRH) panel. The genetic map position of the QTL has been refined by addition of these 10 markers. The QTL evaluation included pedigrees of F₂-intercross Meishan × Yorkshire design, with phenotypic data of 108 F₂ female offspring and genotypic data for 29 MS markers on SSC8. The analysis was performed by using the least squares regression method. The calculated QTL effect for CL obtained by the multilocus least squares method showed a maximum test statistic (F value = 13.98) at position 99 cM between three MS derived from YACs containing SW205 and SW1843 spanning an interval of 7.1 cM. The point-wise (nominal) P-value was 5.21 × 10⁻⁶ corresponding to a genome-wide P-value of 0.009. The additive QTL effect explained 17.4% of the phenotypic variance. Received: 23 December 2000 / Accepted: 07 May 2001     

基于SRAP标记的紫溪山华山松种子园无性系遗传多样性分析

为明确云南楚雄市紫溪山华山松种子园内不同种源无性系间的遗传背景,该研究收集了园内6个种源的60个华山松无性系单株针叶,采用改良CTAB法提取其总DNA,并利用SRAP分子标记对其进行遗传多样性分析。结果表明:(1)从100对引物组合中共筛选出15对具有多态性的SRAP引物,经SRAP-PCR扩增后,共获得出194个位点,多态位点百分率(PPB)为85.05%,Nei’s基因多样性指数(H)为0.233 7,Shannon’s信息指数(I)为0.341 9,种源间的遗传分化系数(GST)为0.355 5。(2)华山松6个种源遗传多样性较高,且遗传变异主要存在于华山松种源内,种源地会泽(HZ)与巍山(WS)种源的遗传距离最近(D=0.050 1),会泽(HZ)与宜良(YL)种源的遗传距离最远(D=0.361 8)。(3)聚类分析显示将6个华山松种源一共聚为3类:会泽(HZ)和巍山(WS)种源聚为一类;楚雄(CX)、南华(NH)和宜良(YL)种源聚为一类;腾冲(TC)种源单独为一类。综合上述结果显示,紫溪山华山松种子园内无性系间的遗传分化处于较高水平,为华山松杂交育种时亲本的选配及种质资源的...     

Genotyping the clonal structure of a gorgonian coral, Junceella juncea (Anthozoa: Octocorallia), using microsatellite loci

The identification of different clones is fundamental to the study of population structure among organisms with mixed reproductive modes such as cnidarians. However, due to the low genetic variation of coral mtDNA and contamination by zooxanthellate DNA, very few molecular markers are available for studying the clonal structure of cnidarians. Herein we used four polymorphic loci of microsatellite DNA isolated from a zooxanthellae-free octocoral, Junceella juncea, to study its clonal structure in seven populations collected from three localities in Taiwan. In total, 40 multilocus genotypes were found among 152 colonies, and the number of genotypes (clones) identified in the seven populations ranged from 2 to 16. Each of the 40 multilocus genotypes was restricted to a single population, even where adjacent populations were only 100 m distant. The ratio of observed to expected genotypic diversity (G_o:G_e) ranged from 0.217 to 0.650, and G_o showed a significant departure from G_e (p<0.05) at each site indicating that asexual fragmentation may play a major role in the maintenance of established populations. Mean relatedness (R) values showed that genotypes within reefs were more closely related than those between regions. The results indicate that microsatellites are useful for discerning the clonal structures among and within populations at different spatial scales. Electronic supplement: Unique multilocus genotypes (clones) revealed by 4 polymorphic loci for Junceella juncea colonies collected from Xiashuijui (Reefs A, B, C, Transplant, Transect), Nanwan and Shicheng     

An interspecific (Capsicum annuum ×C. chinese) F2 linkage map in pepper using RFLP and AFLP markers

We have constructed a molecular linkage map of pepper (Capsicum spp.) in an interspecific F₂ population of 107 plants with 150 RFLP and 430 AFLP markers. The resulting linkage map consists of 11 large (206–60.3 cM) and 5 small (32.6–10.3 cM) linkage groups covering 1,320 cM with an average map distance between framework markers of 7.5 cM. Most (80%) of the RFLP markers were pepper-derived clones, and these markers were evenly distributed across the genome. By using 30 primer combinations, we were able to generate 444 AFLP markers in the F₂ population. The majority of the AFLP markers clustered in each linkage group, although PstI/MseI markers were more evenly distributed than EcoRI/MseI markers within the linkage groups. Genes for the biosynthesis of carotenoids and capsaicinoids were mapped on our linkage map. This map will provide the basis of studying secondary metabolites in pepper. Received: 20 October 1999 / Accepted: 3 July 2000     

I-Region genetic restrictions imposed upon the recognition of KLH by murine T-cell clones

Data presented in this paper show that the recognition of keyhole limpet hemocyanin by murine T-cell clones is restricted by products of the I region. These data have been obtained by genetic mapping studies as well as by the use of monoclonal la-specific antibodies which inhibit the ability of antigen-presenting cells to effectively present antigen to such T-cell clones. Use of heterozygous antigen-presenting cells derived from crosses between B6.C-H-2 ^bm12 and B10.A(4R) mice have allowed us to show that both trans-complementing I-A products are used for restriction of recognition of KLH. These data were confirmed using monoclonal Ia antibodies to inhibition recognition of KLH by the same T-cell clones. Thus, we have shown that there exist hybrid molecules formed by free combinatorial association of products encoded within the I-A subregion which restrict the recognition of soluble antigen. Additionally, we have shown that the molecule formed by complementation between the alpha chain encoded within the I-E region and a beta chain encoded within the A region (A_e) can function effectively in presenting KLH to certain murine T-cell clones. These results support the hypothesis that the recognition of individual antigenic epitopes within large multideterminant antigens is under the control of Ir genes.     

Association between molecular markers and blast resistance in an advanced backcross population of rice

An advanced backcross population consisting of 80 BC₃F₃ lines derived from rice vars. Vandana/Moroberekan was analysed for blast resistance and genotyped with 50 candidate genes and 23 simple sequence repeat (SSR) markers. Six candidate defence response genes [thaumatin, three nucleotide-binding site-leucine-rich repeat sequences from maize and two resistance gene analogue (RGA) markers] and one SSR marker (RM21) were significantly associated with partial blast resistance in rice (P=0.01). These markers accounted for phenotypic variation ranging from 9.6% to 29.4% and contributed to 76% of the total variation of percentage diseased leaf area (DLA) observed under natural infection. Four candidate genes (oxalate oxidase, 14-3-3 protein and two RGA markers) and four SSR markers (RM21, RM168, RM215 and RM250) were significantly associated with resistance to a single pathogen isolate, PO6-6. Among these, two markers were for DLA, five for lesion number and one for lesion size. These markers accounted for 9.1–28.7% of the phenotypic variation. A moderate correlation (r=0.48, P<0.01) was found between the level of partial resistance measured in the greenhouse and that measured under natural conditions. Analysis of BC₃F₄ progeny using genotypes of BC₃F₃ confirmed the phenotypic contribution of these markers. Cluster analysis of DNA profiles showed that the BC₃ population was genetically similar (>85%) to the recurrent parent Vandana. Although no obvious relationship between DNA profiles and resistant phenotypes was observed, three lines (VM19, VM46 and VM76) in a cluster with high similarity to Vandana (89–96%) expressed a high level of partial blast resistance in the field. Analysis of disease progress in the field confirmed the performance of selected lines based on greenhouse and nursery analyses. The advanced backcross progeny with resistance phenotypes tagged by markers will be useful for accumulating blast resistance in upland rice.Communicated by G. Wenzel     

Profiling antibiotic resistance in Escherichia coli strains displaying differential antibiotic susceptibilities using Raman spectroscopy

The rapid identification of antibiotic resistant bacteria is important for public health. In the environment, bacteria are exposed to sub-inhibitory antibiotic concentrations which has implications in the generation of multi-drug resistant strains. To better understand these issues, Raman spectroscopy was employed coupled with partial least squares-discriminant analysis to profile Escherichia coli strains treated with sub-inhibitory concentrations of antibiotics. Clear differences were observed between cells treated with bacteriostatic (tetracycline and rifampicin) and bactericidal (ampicillin, ciprofloxacin, and ceftriaxone) antibiotics for 6 hr: First, atomic force microscopy revealed that bactericidal antibiotics cause extensive cell elongation whereas short filaments are observed with bacteriostatic antibiotics. Second, Raman spectral analysis revealed that bactericidal antibiotics lower nucleic acid to protein (I₈₁₂/I₈₃₀) and nucleic acid to lipid ratios (I₁₄₈₃/I₁₄₅₂) whereas the opposite is seen with bacteriostatic antibiotics. Third, the protein to lipid ratio (I₂₉₃₆/I₂₈₈₅ and I₂₉₃₆/I₂₈₅₀) is a Raman stress signature common to both the classes. These signatures were validated using two mutants, Δlon and ΔacrB, that exhibit relatively high and low resistance towards antibiotics, respectively. In addition, these spectral markers correlated with the emergence of phenotypic antibiotic resistance. Overall, this study demonstrates the efficacy of Raman spectroscopy to identify resistance in bacteria to sub-lethal concentrations of antibiotics.     

Concordance and discordance: a tale of two hybrid zones in the pacific coast irises (Iridaceae)

Chloroplast DNA (cpDNA) markers were developed that provided markers unique to a species or that delimited a large area within a species. These markers were then followed across two hybrid zones: Iris douglasiana/Iris∗∗∗ innominata, and Iris chrysophylla/Iris tenax. In each case the cline in haplotype frequency was compared to the cline for a morphologically based hybrid index. In all three transects across the I. douglasianall. innominata hybrid zone, the cpDNA cline was displaced 1-2 km relative to the morphologically defined hybrid zone; the displacement was not found in the other hybrid zone. The observed displacement represents introgression of cpDNA from ∗∗∗I. douglasiana into ∗∗∗I. innominata. It may be that the I. douglasiana/I.∗∗∗ innominata hybrid zone has shifted in recent time, leaving the slowly dispersing chloroplast DNA behind. The populations known as Iris thompsonii do not form a phylogenetic species and are best viewed as products of hybridization between ∗∗∗I. douglasiana and ∗∗∗I. innominata.     

Gene amplification in a mouse embryo? Double minutes in cell lines independently derived from a Mus musculus x M. caroli fetus

Double minutes (DM) were found to be present in six of seven clones derived from a 16-day female Mus musculus x M. caroli fetus. The DM-positive clones derived from three primary populations independently set up from the fetus, and included clones with an active M. caroli X chromosome as well as clones with an active M. musculus X. The simplest explanation of these findings is that DM were already present in cells of the M. musculus x M. caroli embryo at the time of X chromosome inactivation and persisted during in vivo development and in vitro culture. This suggests that gene amplification occurred in the early embryo, or even the fertilized egg, perhaps because of interactions between components of germ cells contributed by the M. musculus and M. caroli parents. Alternatively, induction may have occurred independently in these lines, requiring that amplification is an unusually common occurrence in cells from interspecific hybrids.     

PHENOTYPIC VARIATION AND GENOTYPIC DIVERSITY IN A PLANKTONIC POPULATION OF THE TOXIGENIC MARINE DINOFLAGELLATE ALEXANDRIUM TAMARENSE (DINOPHYCEAE)1

Multiple clonal isolates from a geographic population of Alexandrium tamarense (M. Lebour) Balech from the North Sea exhibited high genotypic and phenotypic variation. Genetic heterogeneity was such that no clonal lineage was repeatedly sampled according to genotypic markers specified by amplified fragment length polymorphism (AFLP) and microsatellites. Subsampling of genotypic data from both markers showed that ordination of individuals by pair‐wise genetic dissimilarity indices was more reliable by AFLP (482 biallelic loci) than by microsatellites (18 loci). However, resulting patterns of pair‐wise genetic similarities from both markers were significantly correlated (Mantel test P < 0.005). The composition of neurotoxins associated with paralytic shellfish poisoning (PSP) was also highly diverse among these isolates and allowed clustering of toxin phenotypes based on prevalence of individual toxins. Correlation analysis of pair‐wise relatedness of individual clones according to PSP‐toxin profiles and both genotypic characters failed to yield close associations. The expression of allelochemical properties against the cryptophyte Rhodomonas salina (Wis?ouch) D. R. A. Hill et Wetherbee and the predatory dinoflagellate Oxyrrhis marina Dujard. manifested population‐wide variation of responses in the target species, from no visible effect to complete lysis of target cells. Whereas the high genotypic variation indicates high potential for adaptability of the population, we interpret the wide phenotypic variation as evidence for lack of strong selective pressure on respective phenotypic traits at the time the population was sampled. Population markers as applied here may elucidate the ecological significance of respective traits when followed under variable environmental conditions, thereby revealing how variation is maintained within populations.     

Physical delimitation of the pepper Bs3 resistance gene specifying recognition of the AvrBs3 protein from Xanthomonas campestris pv. vesicatoria

The pepper (Capsicum annuum) Bs3 gene confers resistance to avrBs3-expressing strains of the bacterial spot pathogen Xanthomonas campestris pv. vesicatoria. To physically delimit Bs3, a pepper YAC library was screened with two flanking DNA markers that are separated from Bs3 by 1.0 and 1.2 cM, respectively resulting in the identification of three YAC clones. Genetic mapping of the corresponding YACends revealed however, that these YACs do not cover Bs3 and subsequent screens with newly developed YACend markers failed to identify new YAC clones. Marker saturation at the Bs3 locus was carried out by amplified fragment length polymorphism (AFLP). The analysis of 1,024 primer combinations resulted in the identification of 47 new Bs3-linked AFLPs. High-resolution linkage mapping of Bs3 was accomplished by inspecting more than 4,000 F₂ segregants resulting in a genetic resolution of 0.01 cM. Using tightly Bs3-linked YACend- and AFLP-derived markers we established a Bs3-spanning BAC contig and physically delimited the target gene within one BAC clone. The analysis of the Bs3-containing genomic region revealed substantial local variation in the correlation of genetic and physical distances.     

Genes affecting aging: mapping quantitative trait loci in Drosophila melanogaster using amplified fragment length polymorphisms (AFLPs)

This study examines the use of AFLPs (amplified fragment length polymorphisms) for locating QTL for longevity. Inbred long and short-lived lines from selected stocks of D. melanogaster were backcrossed and measurements of life span compiled into a distribution. AFLP markers assorting with long life were screened from the extremes of that distribution. To test their association with further recombination, a second F₁ was backcrossed for three generations and measured. Sires and progeny were genotyped for the markers initially screened. Three AFLP primer pairs identified markers assorting with long life in six of 48 sires. An a posteriori test showed that families of sires with putative markers lived significantly longer on average. A second test showed that within families, progeny with markers lived significantly longer than sibs without them. Marker positions were mapped by hybridization to a P₁ genomic miniblot. AFLP markers were cloned, sequenced and matched to known genomic sequences in a BLAST search. Positions were compared to QTL known from other studies. The BLAST search indicated hybridization at multiply dispersed sites throughout the genome. Marker positions also corresponded to many from independent QTL maps. These results indicate that some QTL consist of dispersed duplications that contribute independently to longevity.     

Two differentially regulated nitrate reductases required for nitrate-dependent,microaerobic growth of Bradyrhizobium japonicum

Native PAGE of Triton x-100-solubilized membranes from Bradyrhizobium japonicum strain PJ17 grown microaerobically (2% O₂, v/v) in defined nitrate-containing medium resolved two catalytically active nitrate reductase (NR) species with apparent molecular masses of 160 kDa (NR_I) and 200 kDa (NR_II). NR_I and NR_II were also found in membranes from cells of strain PJ17 that were first grown in defined medium with glutamate and further incubated microaerobically in the presence of 5 mmol/l KNO₃. However, only NR_I was detected in cell membranes of strain PJ17 when nitrate was omitted from the microaerobic incubation medium. Four mutants unable to grow at low O₂ tension in the presence of nitrate were isolated after transposon Tn5 mutagenesis. Membranes from mutants GRF110 and GRF116 showed mainly NR_I, while the other two mutants, GRF3 and GRF4, expressed mostly NR_II. These results indicate that the ability of B. japonicum PJ17 to grow under microaerobic conditions depends upon the presence of two membrane-bound NR enzymes whose synthesis seem to be independently induced by microaerobiosis (NR_I) or by both microaerobiosis and nitrate (NR_II).Abbreviations NR Nitrate reductase - M _r Relative molecular mass - PMSF Phenylmethylsulfonyl fluoride     

Physical mapping of the <Emphasis Type="Italic">Rf</Emphasis><Subscript><Emphasis Type="Italic">1</Emphasis></Subscript> fertility-restoring gene to a 100 kb region in cotton

Cytoplasmic male sterility (CMS) plays an important role in crop heterosis exploitation. Determining one or more nuclear genes that can restore male fertility to CMS is essential for developing hybrid cultivars. Genetic and physical mapping is the standard technique required for isolating these restoration genes. By screening 2,250 simple sequence repeat (SSR) primer pairs in cotton (Gossypium hirsutum L.), we identified five new SSR markers that are closely linked to the Rf ₁ gene, a fertility restorer gene of cotton for CMS-D2. Based on our previous fine mapping of the Rf ₁ gene and assemblage of three published STS markers, we constructed a high-resolution genetic map of Rf ₁ containing 13 markers in a genetic distance of 0.9 cM. The 13 molecular markers were used to screen a bacterial artificial chromosome (BAC) library from a restorer line 0-613-2R containing Rf ₁ gene, which yielded 50 single positive clones. There was an average of 3.8 clones ranging from 1 to 12 BAC clones per PCR marker. These 50 clones produced an average insert size of 120 kb (ranging between 80 and 225 kb). Thirty-five primer pairs were designed based on 38 sequences of BAC ends, and two new STS markers tightly linked to Rf ₁ gene have been tagged and integrated into this map. The physical map for the Rf ₁ gene was constructed by fingerprinting the positive clones digested with the HindIII enzyme. We were able to delimit the possible location of the Rf ₁ gene to a minimum of two BAC clones spanning an interval of approximately 100 kb between two clones designated 081-05K and 052-01N. Further work using these two BAC clones will lead to isolation of the Rf ₁ gene in cotton.