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1.
Summary Wide compatible varieties (WCVs) show normal spikelet fertility in crosses with Indica and Japonica rice varieties. Crosses of Indica and Japonica varieties frequently show high spikelet sterility which prevents exploitation of heterosis for grain yield. We screened 41 rice varieties for the wide compatibility trait by crossing each with three Indica and three Japonica testers. Varieties giving fertile F1 hybrids with both groups of testers were classified as WCVs. Seven varieties viz., BPI-76 (Indica); N 22; Lambayeque-1 and Dular (Aus); Moroberekan, Palawan and Fossa HV (Japonicas), were identified as WCVs. The frequency of WCVs was higher among Aus and Japonicas. The wide compatibility trait in varieties: Dular and Moroberekan was controlled by a single dominant gene linked with the Est-2 and Amp-3 loci (mean recombination 32.0%). Est-2 and Amp-3 showed complete linkage. Pgi-2 was found to be linked with Est-2 and Amp-3 (mean recombination 16.1%). Est-2 and Amp-3, showed a tighter linkage with C
+ (mean recombination 4.1%). Pgi-2 showed a lower linkage with C
+ (mean recombination 17.3%). The recombination values between the WC gene in Dular and C
+ was much higher than those reported in Japan for the WC gene (S5
n) from Ketan Nangka. It is possible that the WC gene from Dular is different from that in Ketan Nangka. Linkage intensities with the WC gene were not strong enough to be of use for indirect selection for the wide compatibility trait. A search for a more closely linked isozyme or DNA marker was proposed. 相似文献
2.
Summary The male sterility system MS-1 of Brassica oleracea was studied in order to elucidate if nucleo-cytoplasmic interactions determine this system. Crosses of male sterile MS-1 genotypes with heterozygous MS-5 genotypes gave fully fertile F1 progenies. Selfing of seven F1 plants resulted in five F2 populations showing a 9:7 segregation ratio and two a 3:1 ratio for fertile and male sterile plants. Two F2 progenies deviated from the expected 9:7 or 3:1 segregation ratios for fertile and male sterile plants. Thermosensitivity and distortion of the meiosis are suggested as the causal factors underlying the deviation of the segregation ratios. It was concluded that nuclear factors determine the male sterility in the MS-1 system, because the presence of a nucleocytoplasmic interaction in this system should have given only a 3:1 segregation ratio for fertile and male sterile plants in the F2 generation. 相似文献
3.
以IR36(indica)和热研2号(japonica,广亲和品种)为亲本,构建了包含180个单株的F2群体及包括110个标记的分子连锁图谱。利用该F2群体,进行了水稻花粉不育数量性状基因座(quantitative trait locus, QTL)的检测和遗传效应分析,共检测到3个花粉不育QTL,分别位于第3、5、7染色体上,此外,共检测到9个由雄配子引起的偏分离QTL,其中7个与ga-14和ga-11位点的配子败育类型相同。与花粉形态鉴定相比,偏分离的数据对检测F1杂种花粉败育基因更为敏感。在第5、6染色体上控制偏分离的2个QTL位点,其杂合基因型出现的频率偏高。在qHPS-5位点,粳型纯合子表现出比杂合子和籼型纯合子更低的育性水平。本研究获得的分子标记将有助于聚合尽可能多的中性亲和基因以解决亚种间F1杂种的花粉不育性问题。 相似文献
4.
In this study, we characterized the genetic resistance of the Andean bean cultivars Kaboon and Perry Marrow and their relation
to other sources of anthracnose resistance in common bean. Based on the segregation ratio (3R:1S) observed in two F2 populations we demonstrated that Kaboon carries one major dominant gene conferring resistance to races 7 and 73 of Colletotrichum lindemuthianum. This gene in Kaboon is independent from the Co-2 gene and is an allele of the Co-1 gene present in Michigan Dark Red Kidney (MDRK) cultivar. Therefore, we propose the symbol CO-1
2 for the major dominant gene in Kaboon. The Co-1 is the only gene of Andean origin among the Co anthracnose resistance genes characterized in common bean. When inoculated with the less virulent Andean race 5, the segregation
ratio in the F2 progeny of Cardinal and Kaboon was 57R:7S (p = 0.38). These data indicate that Kaboon must possess other weaker dominant resistance genes with a complementary mode of
action, since Cardinal is not known to possess genes for anthracnose resistance. Perry Marrow, a second Andean cultivar with
resistance to a different group of races, was shown to possess another resistant allele at the Co-1 locus and the gene symbol Co-1
3 was assigned. In R × R crosses between Perry Marrow and MDRK or Kaboon, no susceptible F2 plants were found when inoculated with race 73. These findings support the presence of a multiple allelic series at the Andean
Co-1 locus, and have major implications in breeding for durable anthracnose resistance in common bean.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
5.
Snap bean (Phaseolus vulgaris L.) cultivar, Widusa, was crossed to Michigan Dark Red Kidney (MDRK), Michelite, BAT 93, Mexico 222, Cornell 49–242, and TO cultivars to study the inheritance of resistance to anthracnose in Widusa. The segregation patterns observed in six F2 populations supported an expected 3R:1S ratio suggesting that Widusa carries a single dominant gene conditioning resistance to races 7, 65, 73, and 453 of Colletotrichum lindemuthianum, the causal organism of bean anthracnose. Allelism tests conducted with F2 populations derived from crosses between Widusa and Cornell 49–242 (Co-2), Mexico 222 (Co-3), TO (Co-4), TU (Co-5), AB 136 (Co-6), BAT 93 (Co-9), and Ouro Negro (Co-10), inoculated with races 7, 9, 65 and 73, showed a segregation ratio of 15R:1S. These results suggest that the anthracnose resistance gene in Widusa is independent from the Co-2, Co-3, Co-4,Co-5, Co-6, Co-9, and Co-10 genes. A lack of segregation was observed among 200 F2 individuals from the cross Widusa/MDRK, and among 138 F2 individuals from the cross Widusa/Kaboon inoculated with race 65, suggesting that Widusa carries an allele at the Co-1 locus. We propose that the anthracnose resistance allele in Widusa be named Co-1
5 as Widusa exhibits a unique reaction to race 89 compared to other alleles at the Co-1 locus. RAPD marker A181500 co-segregated in repulsion-phase linkage with the Co-1
5 gene at a distance of 1.2 cM and will provide bean breeders with a ready tool to enhance the use of the Co-1
5 gene in future bean cultivars. 相似文献
6.
Carlos A. Cairo Juliana Stein Luciana Delgado Santiago Bortolotti Sebastián A. Guelman Juan Pablo A. Ortiz Eligio N. Morandi 《Euphytica》2002,124(3):387-395
Soybean cultivars carrying the `long juvenile trait' show a delayed flowering response under short day conditions. The incorporation
of this character into genotypes of agronomic interest may allow a broader range of sowing dates and latitudes for a single
cultivar adaptation. The objective of this work was to identify molecular markers linked to the juvenile locus in soybean.
Experiments were carried out using two pairs of near isogenic lines(NILs) differing in the presence of the long juvenile trait,
and RAPD markers. Four hundred primers were first screened to find polymorphism associated with the trait. Additional differences
between NILs were sought by digesting the genomic DNA with five restriction enzymes. Polymorphic fragments detected between
NILs were tested for linkage to the juvenile locus in the corresponding F2 segregating populations. Marker bc357-HaeIII was linked (χ2L = 46.316) to the juvenile locus with an estimated recombination frequency of 0.13 ± 0.03in one of the genetic backgrounds
studied. The fragment was cloned, sequenced and converted into a SCAR marker. Moreover,bc357-HaeIII was used as RFLP probe. Both, SCAR and RFLP generated markers linked to the juvenile locus in the two genetic backgrounds
analysed. Results presented in this work can be utilised for both, the localisation of the gene associated with the character
and for tagging the juvenile trait in soybean breeding programs.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
7.
J. Sutka 《Euphytica》1977,26(2):475-479
Summary The association of genes for purple pigment in the coleoptile with the chromosomes of the winter wheat variety Mironovskaya 808 was investigated using monosomic F2 analysis. The segregation ratio for F2 hybrids of Chinese Spring monosomics x Mironovskya 808 seems to indicate that the purple colour of the coleoptile is determined by two dominant genes, Rc3 and Rc4, which are located on the chromosomes 7D and 6B respectively, and which reinforce each other. Apart from these two genes, suppressors found on the chromosomes 2A, 2B, 2D, 4B and 6A also play a role in the intensity of the purple colour.With the aid of a Chinese Spring telocentric chromosome marker it was observed that the Rc3 gene is located on the chromosome arm 7DS, at a distance of 16±4.23 crossover units from the centromere. 相似文献
8.
Summary The genetic control of tolerance of wheat to high concentrations of soil boron was studied for five genotypes. Each genotype represented one of five categories of response to high levels of boron, ranging from very sensitive to tolerant. Tolerance to boron was expressed as a partially dominant character, although the response of an F1 hybrid, relative to the parents, varied with the level of boron applied. The F1 hybrids responded similarly to the more tolerant parent at low B treatments and intermediate to the parents at higher treatments. Ratios consistent with monogenic segregation were observed for the F2 and F3 generations for the combinations (WI*MMC) × Kenya Farmer, Warigal × (WI*MMC) and Halberd × Warigal. The three genes, Bo1, Bo2 and Bo3, while transgressive segregation between two tolerant genotypes, G61450 and Halberd, suggested a fourth locus controlling tolerance to boron. 相似文献
9.
L.S. Boiteux J.R. Hyman I.C. Bach M.E.N. Fonseca W.C. Matthews P.A. Roberts P.W. Simon 《Euphytica》2004,136(1):37-44
In carrot, two codominant sequence-tagged site (STS) markers, flanking in tight linkage the Meloidogyne javanica resistance (Mj-1) locus, were employed to investigate the association between expression of resistance and locus dosage. Phenotypic expression
of homozygous resistant (R); heterozygous; and homozygous susceptible (S) individuals in an F2 population of 396 F2 plants from ‘Brasília-1252’ (R) × ‘B6274’ (S) was estimated for three resistance criteria: total egg production per plant
(TEP), egg production per gram of fibrous root (EPG) and root gall index (RGI). The homozygous resistant class had average
values of 403.9 for TEP; 147.5 for EPG and 0.8 for RGI. The heterozygous class had 1,673; 477.3; and 0.16 whereas the homozygous
susceptible class had 68,604; 11,877; and 2.54, respectively. The dominance ratio (d/a) indicated that genomic region(s) derived
from the resistant parent encompass genetic factor(s) with almost complete dominance for RGI (d/a = 0.93–0.94) and incomplete
dominance for transformed (TEP)0.25 and (EPG)0.25 (d/a = 0.63–0.65). Broad sense heritabilities were high varying from 72.9% for (EPG)0.25 to 86.0% for RGI. Narrow sense heritability values ranged from 55.9% for RGI to 64.3%for (TEP)0.25. Highly significant orthogonal contrasts were observed between homozygous resistant vs. heterozygous for (TEP)0.25 and (EPG)0.25. Marker-assisted selection could greatly facilitate the incorporation of the Mj-1 allele in both male-fertile and male-sterile counterpart lines in order to obtain F1 hybrids with the most effective levels of resistance.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
10.
Summary We report on the inheritance of 11 morphological markers and 17 isozymes in lentil (Lens culinaris). The monogenic inheritance of 11 morphological markers and 11 isozymes is confirmed. The inheritance of six isozymes (Aco-2, Enp, Est-3, Est-4, Lap-3, and Mdh-m) is reported for the first time in lentil. This brings the total number of described genes in lentil to 78. Cases of disturbed segregation were more frequent than expected by chance. It is suggested that disturbed segregation was in most cases caused by linkage with a piece of chromosome that showed preferential elimination in crosses between Lens culinaris ssp. odemensis and other subspecies. The prevalence of disturbed segregation in crosses with Lens culinaris ssp. odemensis could limit the usefulness of this subspecies in genetic and linkage studies. 相似文献
11.
Hybrids between indica and japonica rice varieties usually show partial sterility, and are a major limiting factor in the
utilization of heterosis at subspecific level. When studying male-gamete (pollen) abortion, a possibly important cause for
sterility, six loci (S-a, S-b, S-c, S-d, S-e and S-f) for F1 pollen sterility were identified. Here we report genetic and linkage analysis of S-c locus using molecular markers in a cross between Taichung 65, a japonica variety carrying allele S-c
j, and its isogenic line TISL5, carrying alleleS-c
j. Our results show that pollen sterility occurring in the hybrids is controlled by one locus. We used 208 RFLP markers, as
well as 500 RAPD primers, to survey the polymorphism between Taichung 65 and TISL5. Six RFLP markers located on a small region
of chromosome 3, detected different RFLP patterns. Co-segregation analysis of fertility and RFLP patterns with 123 F2 plants confirmed that the markers RG227, RG391, R1420 were completely linked with the S-c locus. The genetic distances between the markers C730, RG166 and RG369 and the S-c locus were 0.5 cM, 3.4 cM, and 3.4 cM respectively. Distorted F2 ratios were also observed for these 4 RFLP markers in the cross. This result suggests that the `one locus sporo-gametophytic'
model could explain F1 hybrid pollen sterility in cultivated rice. RG227, the completely linked marker, has been converted to STS marker for marker-assisted
selection.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
12.
Validation of a male‐linked gene locus (OGI) for sex identification in persimmon (Diospyros kaki Thunb.) and its application in F1 progeny 
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下载免费PDF全文 Ping‐Xian Zhang Si‐Chao Yang Yi‐Feng Liu Qing‐Lin Zhang Li‐Qing Xu Zheng‐Rong Luo 《Plant Breeding》2016,135(6):721-727
It is crucial to develop a rapid technique for identifying sexuality in the seedling stage of persimmon (Diospyros kaki Thunb.), and the elimination of male progeny has been regarded as an important strategy for enhancing breeding efficiency. In this study, phenotype characterization and genotyping of the male‐linked OGI marker were carried out using 205 accessions, including persimmon cultivars, F1 progeny and nine related Diospyros species. All persimmon cultivars displayed consistent results regarding OGI amplification and sex phenotype. A total of 143 F1 progeny were derived from 11 crosses, among which 95 individuals had flowered. In the flowering full‐sib families, the amplification of the OGI marker in agreement with the sex phenotype was obtained in 85 plants (89.5%). The segregation of OGI in ‘Huashi 1’ × ‘Luotian Tianshi’ and ‘Huashi 1’ × Male 3 F1 populations fit a 1 : 1 ratio. Furthermore, high OGI transferability was observed in nine related species. Overall, the results indicated that the OGI locus could be used to distinguish male from female persimmon plants at an early stage. 相似文献
13.
The shattering habit in buckwheat occurs because of brittle or weak pedicels. Brittle pedicels are observed in wild buckwheat
but not in cultivated buckwheat. Using 2 self-compatible lines, 01AMU2 with brittle pedicels and Kyukei SC2 (KSC2) with non-brittle
pedicels, produced by an interspecific cross between Fagopyrum esculentum cv Botansoba (non-brittle) andF. homotropicum (brittle), we investigated the inheritance of brittle pedicels. F1 plants derived from crosses between Botansoba × 01AMU2 and Botansoba × KSC2 had brittle pedicels. The F2 population derived from the cross between Botansoba × 01AMU2 showed segregation of brittle and non-brittle pedicels that
fit the expected 3:1 ratio, suggesting that non-brittle pedicel in Botansoba is controlled by a single recessive gene (sht1). Another F2 population, derived from the cross between Botansoba × KSC2, showed segregation of brittle and non-brittle pedicels that
fit an expected ratio of 9:7,suggesting that non-brittle pedicel in KSC2is controlled by a different single recessive gene
(sht2). Thus, brittle pedicel is achieved by 2 complementary genes Sht1 and Sht2. The sht1 locus is linked to the S locus with a recombination frequency of5.46±1.18 (%). We investigated whether common buckwheat has the allele sht2by crossing 6 common buckwheat lines withKSC2. An analysis of the preliminary data showed that some of the F1 had brittle pedicels and others had non-brittle pedicels, suggesting that some common buckwheat lines possess both the allelesSht2 and sht2.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
14.
Developing rice lines possessing neutral alleles at sterility loci to improve the width of compatibility 总被引:3,自引:0,他引:3
To improve the width of compatibility for overcoming various sterilities in inter‐subspecific hybrid rice, some elite lines combining several sterility‐neutral genes were developed and the effects on mitigating various hybrid sterilities were tested. From Akihikari// IR36/Dular, neutral genes at ga11 and six sterility loci, S5, S7, S8, S9, S15 and S16, were combined and elite lines were obtained in their successive progeny. Four of the lines tested were confirmed to combine the neutral alleles S5‐n, S7‐n, S8‐n, S9‐n, S15‐n and S16‐n at the sterility loci and, among them, two harboured an additional gamete abortion‐neutral allele, ga11‐n. F1s, which used the lines and various testers as parents, mitigated the spikelet sterilities by six sterility loci and gamete abortion by a gametophyte gene, ga11. These lines could be selectively used as parents or donors to increase the width of compatibility of rice varieties for improving fertility in inter‐subspecific hybrid rice breeding. 相似文献
15.
The inheritance of buckwheat (Fagopyrum esculentum Moench) seed storage proteins was investigated by control crosses between accessions containing different SDS‐PAGE protein patterns in the range of 38–48 kDa. Analysis of segregation of individual F1 and F2 seeds obtained by 17 crosses showed segregation of eight electrophoretic bands, from which 12‐banding variants were inferred. Two variants contained one band, nine contained two bands and one variant contained three bands and behaved as a single co‐dominant unit. The segregation of banding variants fits the expected ratios and thus supports the hypothesis of single Mendelian gene inheritance and that alleles are co‐dominant. The results therefore suggest that the genes controlling globulin subunits are tightly linked and inherited as a single locus. The locus was designated Glob‐1 and the twelve segregated protein variants as alleles a‐l. This is the first buckwheat globulin locus identified with multiple alleles, phenotypically expressed as groups of protein bands and thus applicable as a functional marker in buckwheat genomic studies. 相似文献
16.
Hidetoshi Ajisaka Yasuhisa Kuginuki Susumu Yui Sueo Enomoto Masashi Hirai 《Euphytica》2001,118(1):75-81
DNA markers linked to a locus controlling an extreme late bolting trait, which was originally found in a local cultivar of
a non-heading leafy vegetable,‘Osaka Shirona Bansei’ (Brassica rapa L. ssp. pekinensis syn. campestris L.) were identified using bulked segregant analysis. A doubled haploid (DH) line, DH27, which is a progeny of ‘Osaka Shirona
Bansei’, shows extreme late bolting, and bolts without vernalization. DH27 was crossed with a normal bolting DH line, G309.
The plantlets of the parents, F1 and F2, were vernalized and then grown in a greenhouse. The bolting time of F2 plants showed a continuous distribution from 19 to 231 days after vernalization (DAV), suggesting the effects of a few major
genes and polygenes. Possible linkage markers for this trait were screened by modified bulked segregant analysis (BSA). The
BSA using four bulks suggested that a 530-bp RAPD band RA1255C was linked to a locus controlling the bolting trait. The RAPD
band was cloned and used as a probe to detect RFLP. The fragment detected a single locus, BN007-1,the segregation of which
in the F2 population matched that of RA1255C. Three other RAPDs were found to be linked to BN007-1. A quantitative trait locus(QTL)
affecting the bolting time was detected around BN007-1 using MAPMAKER/QTL. Since the difference between bolting times of both
the parental genotypes in the F2 was 138 days, these markers may be useful for a marker-assisted selection (MAS) in the breeding program for late bolting
or bolting-resistant cultivars in B. rapa crops.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
17.
Myung Sik Kim Min Jung Park Woo Hyeun Jeong Ki Chul Nam Jong Il Chung 《Euphytica》2006,152(3):361-366
Soybean is a major source of protein meal in the world. Soybean kunitz trypsin inhibitor (SKTI) protein is a responsible for the inferior nutritional quality of unheated or incompletely heated soybean meal. The primary objective of this research was to identify DNA markers linked to the Ti locus controlling presence and absence of kunitz trypsin inhibitor protein. Two mapping populations were developed. Population 1 was derived from a cross between cultivar Jinpumkong2 (TiTi) and C242 (titi). Population 2 was made from a mating between cultivar Clark (TiTi) and C242. The F1 plants were grown in the greenhouse to produce F2 seeds. Each F2 seed from F1 plants was analyzed electrophoretically to determine the presence of the SKTI protein band. One-thousand RAPD primers, 342 AFLP primer sets, and 35 SSR primers were used to map Ti locus in population 1 and 2. The presence of SKTI protein was dominant to the lack of a SKTI protein and kunitz trypsin inhibit protein band was controlled by a single locus. Twelve DNA markers (4 RAPD, 4 AFLP, and 3 SSR) and Ti locus were found to be genetically linked in population 1 consisted with 94 F2 individual plants. Three SSR markers (Satt409, Satt228, and Satt429) were linked with Ti locus within 10 cM. Satt228 marker was tightly linked with Ti locus. Satt228 marker was tightly linked within 0–3.7 cM of the Ti locus and may be useful in a marker assisted selection program. 相似文献
18.
Doubled-haploid breeding systems are typically based on sampling gametes from F1 plants. However, in the case of repulsion linkages, additional recombination could be advantageous. Pre-selection of gamete donors might also shift progeny performance in a desired direction. The objectives of this study were to quantify the effects of an additional round of recombination and assess the effectiveness of pre-anthesis selection in the production of barley doubled haploids. Assessments were conducted on: 1. 100 F1-derived lines representing a subset of lines used in previous genome-mapping studies; 2. 100 random F2-derived lines; and 3. 50 F2-derived lines from gamete donors selected for early heading. An additional round of recombination had only a modest effect on generating more favourable genotypes. Pre-anthesis selection was ineffective in generating an earlier heading population. According to published quantitative-trait locus (QTL) analyses based on the F1 -derived population, there are few repulsion linkages between QTL determining the traits measured in this experiment. Any advantages to be gained from postponing the generation of derivation of doubled haploids must be weighed against the delay and additional cost. 相似文献
19.
A set of T. aestivum-L. elongatum chromosome substitution lines was tested for yellow rust resistance at the seedling stage. Inheritance of the resistance and esterase-5 (Est-5) variation were studied. The results demonstrated that L.elongatum carried a new gene(s) conferring yellow rust resistance. This gene was dominant and located on chromosome 3E of L. elongatum. The biochemical locus encoding Est-5was also located on chromosome 3E, and co-segregated with theYr gene(s) in the wheat background. The transmission frequencies of chromosome 3E in 3E(3A) × CS, 3E(3B) × CS and 3E(3D) × CS hybrids were scored.None of the hybrids transmitted the alien chromosome at thetheoretical maximum rate, but the transmission frequencies ofchromosome 3E in F2 populations of 3E(3A) × CS and 3E(3D) × CS were significantly higher than in thatof 3E(3B) × CS. 相似文献
20.
M. P. Alexander 《Euphytica》1973,22(2):344-350
Summary The mode of action of the X locus in tomato was investigated. The X is a microgametophytic factor which operates only in X x. In X x, the X causes the abortion of microgametophytes carrying x. On account of this, X x gives rise to 50% pollen abortion. The segregation of hl which is linked with x at a distance of 18 units was also studied. hl x/Hl X causes 50% pollen abortion and aberrant segregation of hl, indicating that the microgametophytes which are aborted are those carrying x. hl X/Hl X results in low pollen abortion and normal 3:1 segregation of hl indicating that X does not operate in the homozygotes of X. 相似文献