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1.
Aroma and cooked kernel elongation (CKE) are the two most important quality traits, which differentiate the highly valued Basmati rice from other rice types. Previous studies on genetic analysis have shown that genes/QTLs for these two traits are linked and present on chromosome number 8. We have evaluated the genetic diversity in 33 rice genotypes representative of the traditional Basmati (TB), cross-bred Basmati derived from indica × Basmati rice crosses and non-Basmati (indica and japonica) rice varieties for chromosome number 8 using 26 SSR markers including a specific marker (SCU-SSR1) for RG28 locus; the results have been compared with whole genome based SSR allelic data. The 26 SSR markers (24 polymorphic and 2 monomorphic) amplified a total of 106 alleles; 21 of these alleles were detected to be unique, present in only one genotype. The number and size of the alleles, and polymorphism information content (PIC) values ranged between 1–8, 87–312 and 0–0.736 bp, respectively. SCU-SSR1 marker amplified a total of three alleles (128, 129 and 130 bp). All the TB varieties except Basmati 217 (129 bp) and 7/13 cross-bred Basmati varieties had the 130 bp allele. Alleles of 129 and 128 bp were present in majority of the indica and japonica varieties, respectively. The average pair-wise Jaccard similarity coefficients for TB, indica and japonica varieties were 0.512, 0.483 and 0.251, respectively. Average similarity coefficient between TB and japonica was higher (0.236) compared to that between TB and indicas (0.150). Genetic relationships as determined by Principal Component Analysis (PCA, NTSYS-pc), PowerMarker tree, and Structure analyses, clearly showed high-level differentiation between TB and indica rice varieties, which formed two distinct clusters. The cross-bred Basmati and japonica rice genotypes were placed between these two clusters. Basmati 217 and Ranbir Basmati were quite divergent from rest of the TB varieties. Some of cross-bred Basmati varieties including Super, CSR30 and kernel were closer to TB. Indica rice varieties, CSR10 (salt tolerant variety) and Pokkali (salt tolerant landrace) formed a separate distinct cluster. The Pritchard structure analysis divided the rice genotypes in four major sub-populations of TB, cross-bred Basmati, indica and japonica (including Ranbir Basmati and Basmati 217) rice varieties. Chromosome 8 data-set showed a positive correlation (Mantel test, r = 0.739) with the allelic data-set for 30 SSR markers well-distributed on 12 rice chromosomes indicating a higher level of similarity between the two. The study demonstrates the distinctness of TB from other rice types (indica and japonica) and also provides several novel markers for differentiation between TB rice supplies from cheaper cross-bred Basmati and long-grain non-Basmati varieties at commercial level. 相似文献
2.
This paper describes the relative efficiency of three marker systems, RAPD, ISSR, and AFLP, in terms of fingerprinting 14
rice genotypes consisting of seven temperatejaponica rice cultivars, three indica near-isogenic lines, three indica introgression lines, and one breeding line of japonica type adapted to high-altitude areas of the tropics with cold tolerance genes. Fourteen RAPD, 21 ISSR, and 8 AFLP primers
could produce 970 loci, with the highest average number of loci (92.5) generated by AFLP. Although polymorphic bands in the
genotypes were detected by all marker assays, the AFLP assay discriminated the genotypes effectively with a robust discriminating
power (0.99), followed by ISSR (0.76) and RAPD (0.61). While significant polymorphism was detected among the genotypes of
japonica and indica through analysis of molecular variance (AMOVA), relatively low polymorphism was detected within the genotypes of japonica rice cultivars. The correlation coefficients of similarity were significant for the three marker systems used, but only the
AFLP assay effectively differentiated all tested rice lines. Fingerprinting of backcross-derived resistant progenies using
ISSR and AFLP markers easily detected progenies having a maximum rate of recovery for the recurrent parent genome and suggested
that our fingerprinting approach adopting the ‘undefined-element-amplifying’ DNA marker system is suitable for incorporating
useful alleles from the indica donor genome into the genome of temperate japonica rice cultivars with the least impact of deleterious linkage drag. 相似文献
3.
Summary Ninety Chinese rice landraces were examined with special reference to the indica-japonica differentiation in terms of traditional criteria, isozyme analysis and PCR analysis of the chloroplast DNA (cpDNA). Cultivars were separated into indica and japonica defined by a discriminant function (Z) based on key characters, as well as by isozyme genotypes. Most indica landraces had chloroplast DNAs with a deletion at the Pst-12 fragment, while most japonica landraces had cpDNAs without the deletion. Two traditionally recognized varietal groups in China, keng and hsien, corresponded largely to the respective japonica and indica revealed in our study. The results obtained in this study showed good agreement for classification of indica and japonica types by the three methods: discriminant analysis by Z value, isozyme analysis, and PCR analysis for cpDNA. 相似文献
4.
Oliver E. Manangkil Hien Thi Thu Vu Shinya Yoshida Naoki Mori Chiharu Nakamura 《Euphytica》2008,163(2):267-274
Submergence is a major stress causing yield losses particularly in the direct-seeded rice cultivation system and necessitates
the development of a simple, rapid and reliable bioassay for a large scale screening of rice germplasms with tolerance against
submergence stress. We developed two new bioassay methods that were based primarily on the seedling vigor evaluated by the
ability of fast shoot elongation under submerged conditions, and compared their effectiveness with two other available methods.
All four bioassay methods using cultivars of 7 indica and 6 japonica types revealed significant and consistent cultivar differences in seedling vigor under submergence and/or submergence tolerance.
Japonica cultivars were more vigorous than indica cultivars, with Nipponbare being the most vigorous. The simplest test tube method showed the highest correlations to all
other methods. Our results suggest that seedling vigor serves as a submergence avoidance mechanism and confers tolerance on
rice seedlings to flooding during early crop establishment. A possible relationship is discussed between seedling vigor based
on fast shoot elongation and submergence tolerance defined by recovery from submergence stress. 相似文献
5.
Assessment of genetic diversity within and among Basmati and non-Basmati rice varieties using AFLP,ISSR and SSR markers 总被引:6,自引:0,他引:6
Molecular markers provide novel tools to differentiate between the various grades of Basmati rice, maintain fair-trade practices and to determine its relationship with other rice groups in Oryza sativa. We have evaluated the genetic diversity and patterns of relationships among the 18 rice genotypes representative of the traditional Basmati, cross-bred Basmati and non-Basmati (indica and japonica) rice varieties using AFLP, ISSR and SSR markers. All the three marker systems generated higher levels of polymorphism and could distinguish between all the 18 rice cultivars. The minimum number of assay-units per system needed to distinguish between all the cultivars was one for AFLP, two for ISSR and five for SSR. A total of 171 (110 polymorphic), 240 (188 polymorphic) and 160 (159 polymorphic) bands were detected using five primer combinations of AFLP, 25 UBC ISSR primers and 30 well distributed, mapped SSR markers, respectively. The salient features of AFLP, ISSR and SSR marker data analyzed using clustering algorithms, principal component analysis, Mantel test and AMOVA analysis are as given below: (i) the two traditional Basmati rice varieties were genetically distinct from indica and japonica rice varieties and invariably formed a separate cluster, (ii) the six Basmati varieties developed from various indica × Basmati rice crosses and backcrosses were grouped variably depending upon the marker system employed; CSR30 and Super being more closer to traditional Basmati followed by HKR228, Kasturi, Pusa Basmati 1 and Sabarmati, (iii) AFLP, ISSR and SSR marker data-sets showed moderate levels of positive correlation (Mantel test, r = 0.42–0.50), and (iv) the partitioning of the variance among and within rice groups (traditional Basmati, cross-bred Basmati, indica and japonica) using AMOVA showed greater variation among than within groups using SSR data-set, while reverse was true for both ISSR and AFLP data-sets. The study emphasizes the need for using a combination of different marker systems for a comprehensive genetic analysis of Basmati rice germplasm. The high-level polymorphism generated by SSR, ISSR and AFLP assays described in this study shall provide novel markers to differentiate between traditional Basmati rice supplies from cheaper cross-bred Basmati and long-grain non-Basmati varieties at commercial level.The first two authors have equal contribution 相似文献
6.
Y. Xue S. Q. Zhang Q. H. Yao R. H. Peng A. S. Xiong X. Li W. M. Zhu Y. Y. Zhu D. S. Zha 《Euphytica》2008,164(3):739-744
In the present study, quantitative trait loci (QTLs) controlling seed storability based on relative germination rate (%) were
dissected using a saturated linkage map and a recombinant inbred lines (RILs) derived from a cross of japonica cultivar Asominori (Oryza sativa L.) and indica cultivar IR24 (Oryza sativa L.). A total of three QTLs (qRGR-1, qRGR-3 and qRGR-9) were detected on chromosomes 1, 3 and 9 with LOD score ranging from 3.45 to 6.95 and the phenotypic variance explained from
16.72% to 28.63%. The IR24 alleles were all associated with seed storability at all the three QTLs. The existence of these
QTLs was confirmed using IR24 chromosome segment substitution lines (CSSLs) in Asominori genetic background (AIS). By QTL
comparative analysis, the QTL, qRGR-9 on chromosomes 9 appeared to be consistent with another rice population, this region may provide an important region for
isolating this responsible gene. These results also provide the possibilities of enhancing Seed storability in rice breeding
program by marker-assisted selection (MAS) and pyramiding QTLs.
Y. Xue and S. Q. Zhang—joint first authors. 相似文献
7.
Summary Rice cultivars (Oryza sativa L.) belonging to five ecotypes (aus, aman, boro, bulu and tjereh) and to two groups of Japanese rice (lowland and upland) are examined with respect to KClO3 resistance, phenol reaction and apiculus hair length. These characters have been used as available criteria to classify rice into two types indica and japonica, for the last thirty years.The findings of this study are that the aman, boro and tjereh ecotypes should be classified as typical indica; and that the Japanese lowland rice cultivars are mainly typical japonica. Some of the aus, bulu and Japanese upland rice cultivars differ from typical indica and typical japonica, so the respective terms aus type, bulu type and J.u.r. type, are proposed.
Aman, boro tjereh and Japanese lowland rice are cultivated in lowland. Some of the aus, bulu and Japanese upland rice cultivars have the characteristics of upland rice. In general, lowland rice cultivars can be clearly classified into indica or japonica, while upland cultivars cannot.Abbreviations
Aph
dominant gene for apiculus hair length > 0.7 mm
-
aph
recessive gene for apiculus hair length < 0.7 mm
-
J.u.r. type
Japanese upland rice type 相似文献
8.
Akhil Ranjan Baruah Noriko Ishigo-Oka Mieko Adachi Yasuyo Oguma Yoshiro Tokizono Kazumitsu Onishi Yoshio Sano 《Euphytica》2009,165(3):459-470
The present study was conducted to understand the pattern of variation and the genetic bases for cold tolerance at the early
growth stage in Asian rice. The genetic variation was investigated at the germination, plumule and seedling stages among 57
strains including cultivated rice (Oryza sativa ssp. indica and ssp. japonica) and its wild progenitor (Oryza rufipogon). The significant differentiation of cold tolerance was observed among the taxonomically divided groups. At the germination
stage, both indica and japonica subspecies tended to be more tolerant than O. rufipogon, whereas at the plumule and seedling stages, ssp. japonica tended to be more tolerant than ssp. indica and O. rufipogon. Furthermore, in cold tolerance at the plumule stage, the clinal variation across the latitude of origins was observed within
O. rufipogon and ssp. japonica, suggesting that the current pattern of variation seems to have been shaped by both their phylogenetic histories and on-going
adaptation to the local environments. QTL analysis between O. sativa ssp. japonica (tolerant) and O. rufipogon (susceptible) revealed five putative QTLs for cold tolerance at the plumule and seedling stages but not at the germination
stage. Substitution mapping was also carried out to precisely locate the two major QTLs for cold tolerance at the plumule
stage, which could be used for improvement of tolerance to cold stress in ssp. indica. 相似文献
9.
Summary Four indica cultivars viz. Kalinga-I, Ptb. 10, IR 27280-13-3-3-3 and Co. 41 were found to possess male sterile cytoplasm with fertility restoring genes while the cultivar Krishna was found to maintain the male sterility in all the cases. All the plants in the F1 of Kalinga-I × Krishna were observed to be completely male sterile and continued to show complete pollen sterility in subsequent backcross generations when backcrossed with recurring pollen parent, Krishna. Thus, it was posible to develop a new cytoplasmic-genetic male sterile line in indica rice (Krishna A) with Kalinga-I male sterile cytoplasm and this male sterile cytoplasm was found to be genetically different from others. Further, the newly developed male sterile line (Krishna A) was observed to be tolerant for low temperature at seedling stage. 相似文献
10.
QTL for rice grain quality based on a DH population derived from parents with similar apparent amylose content 总被引:5,自引:0,他引:5
A doubled haploid (DH)population consisting of 135 lines, derived from an indica (IR64) and a japonica (Azucena) rice with a similar apparent amylose content (AAC), was used to investigate the genetic factors affecting cooking
and eating quality of rice. AAC,gelatinization temperature (GT), gel consistency (GC) and six starch pasting viscosity parameters
were measured for quantitative trait loci (QTL) analysis using 193 molecular markers mapped on the DH population. A total
of 17 QTLs were detected for the 9 traits, with at least one QTL and as many as 3 QTLs for each individual trait. No QTL for
the measured parameters was found at the wx locus,possibly because of the similar AAC between the parents. Several QTLs with important effects on the variations in the
measured parameters were detected in the present study which have not been found in earlier reports based on populations derived
from parents with different AAC and wxgene alleles. Two interesting loci could be deduced from the present study according to the marker order compared with other
genetic linkage maps. A QTL flanked by Amy2A and RG433 on the end of the long arm of chromosome 6, identified for GT, set
back and consistency viscosity, might cover the gene encoding starch branching enzyme I. Similarly, a QTL flanked by RG139
and RZ58on chromosome 2, detected for hot paste viscosity and breakdown viscosity, might cover the gene encoding starch branching
enzyme III. Generally, traits significantly correlated with each other shared identical QTL, but it was not true in some cases.
The fine molecular mechanisms underlying these traits await further elucidation for the improvement of eating and cooking
quality of rice.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
11.
Fat content is a concern for the enhancement of rice for eating, cooking, and storage qualities. To clarify its genetic mechanism,
a double haploid (DH) population derived from anther hybrid F1 of Zhenshan 97B (indica) and Wuyujing 2 (japonica) and two backcross F1 (BCF1) populations, which came from the DH lines backcrossing to two parents, were used to scan quantitative trait loci (QTLs)
and dissect gene effects for the crude fat content (CFC) in brown rice. Fourteen QTLs were resolved, distributing on chromosomes
1, 3, and 5–9. Three loci were detected repeatedly in two populations, DH or BCF1. Among these loci, a major QTL, qCFC5, flanking markers RM87 and RM334, was located on chromosome 5, which was detected simultaneously among three populations.
The main QTLs had a major role in controlling CFC in brown rice and were modified by several mini-effect QTLs and epistatic
affection.
Wenjun Liu and Jing Zeng are contributed equally to this paper. 相似文献
12.
Summary An investigation was made to exploit an innovative tool viz., thermosensitive genic male sterile (TGMS) system in twoline inter-subspecies rice hybrids using 132 hybrids involving four TGMS lines viz., TS15, TS16, TS18 and TS29 and thirty three testers viz., 17 indicas, 7 japonicas and 9 javanicas by line × tester method at Paddy Breeding Station, Tamil Nadu Agricultural University, India. Pre-ponderence of non-additive gene action for yield and yield attributing traits was observed by analysing combining ability. TGMS lines TS18, TS29 and the testers CB96073, CB96026, CB94247, TNAU 94241 (indicas), Gohykumangoku (japonica), Dular, PRR16 (javanicas) were good general combiners. The hybrids TS29 × TNAU 94241 (indica/indica), TS 18 × Yamadanishiki (indica/japonica) and TS29 × Dular, TS29 × PRR16 (indica/javanica) were promising for heterosis breeding programme. The japonica tester Gohykumangoku and javanica testers Dular and CPSL0-17 exhibited strong heterosis for spikelet fertility when crossed with TGMS lines TS 16, TS 18, TS 29 indicated that these lines may possess wide compatible gene (WCG) for spikelet fertility. Based on mean performance, standard heterosis and sca for yield and yield traits, the inter – subspecies hybrids viz., TS29 × TNAU 94241, TS18 × TNAU 94241, TS29 × CB96073, TS29 × CB94247, TS29 × CB96026 (indica/indica) TS18 × Yamadanishiki, TS29 × Gohykumangoku (indica/japonica), TS29 × Dular, TS29 × PRR16 (indica/javanica) exhibited high heterosis over check hybrid CORH2 and the above hybrids can be exploited commercially. The present investigation revealed that the TGMS system may utilized as an innovative tool for developing inter subspecies two line hybrids with strong heterosis in rice. 相似文献
13.
Eighty-two varieties of rice from different regions in Thailand were selected to explore the Waxy (Wx)gene diversity and indica-japonica differentiation of chloroplast DNA. A comparison of the 5 splice site in the first intron was made between glutinous and nonglutinous rice. It revealed that non-glutinous with low-amylose content and glutinous rice were characterized as the Wxb allele based on the G-to-T base substitution, whereas non-glutinous rice with intermediate and high amylose carried the Wxa allele. Four Wx microsatellite alleles, (CT)n repeat, (n = 16,17,18 and 19) were found in glutinous rice. In contrast, non-glutinous rice showed five Wx microsatellite alleles (n = 11, 16, 17, 18 and 19). The (CT)17 allele was prominent allele in Thai population, while the (CT)11 allele was found only in intermediate and high amylose rice varieties from southern Thailand. Almost all of upland rice grown by various ethnic groups in northern Thailand were characterized as japonica type based on their having the PstI-12 fragment in their cpDNA, whereas most of rainfed lowland varieties from other regions of Thailand were indica. This exploration of DNA-based genetic markers is important, as it enhances our ability to describe and manipulate sources of genetic variation for rice breeding programs. 相似文献
14.
Summary The segregation of 12 heterozygous isozyme markers was analyzed among F2 plants and 51 anther culture (AC)-derived lines obtained from the japonica × indica cross of rice, IRAT 177 × Apura. All the lines except two were homozygous products of recombination of the two parental phenotypes. Doubled haploid (DH) lines derived from plants regenerated from the same callus were identical, confirming previously obtained results in rice. Surprisingly, some lines derived from different calli were also identical, suggesting a phenomenon of early callus fragmentation. All these observations at the isozyme level were confirmed by field evaluation. Deviations of segregations from the expected 1 : 1 ratio were observed at 4 loci among the DH lines. Among these, two were also noted among the F2 plants. The two other distortions, both in favor of the japonica allele, were observed specifically in the AC-derived materials.Although this concerns a small proportion of the genes under study, it suggests that the embryogenic microsporal population does not represent a random gametic array. On the other hand, evaluation of recombination between isozyme genes located on chromosome 6 appears consistent with F2 data and data previously recorded on the other japonica × indica crosses. The potential use of isozymes in breeding doubled haploids derived from remote crosses in rice is discussed.Abbreviations MCPA =
2-methyl-4-chlorophenoxyacetic acid
- IAA =
indolacetic acid
- AC plant or line =
anther culture-derived plant or line
- DH line =
doubled haploid line 相似文献
15.
K. Selvaraju P. Shanmugasundaram S. Mohankumar M. Asaithambi R. Balasaraswathi 《Euphytica》2007,157(1-2):35-43
Rice leaffolder (RLF) (Cnaphalocrocis medinalis (Guenée) is a destructive and widespread insect pest throughout the rice growing regions in Asia. The genetics of resistance
to RLF in rice is very complex and not thoroughly explored. The present study was conducted to detect the quantitative trait
loci (QTL) associated with RLF resistance involving 176 recombinant inbred lines (RILs) of F8 generation derived from a cross between IR36, a leaffolder susceptible variety and TNAULFR831311, a moderately resistant
indica rice culture. Simple sequence repeat (SSR) markers were used to construct specific linkage groups of rice. All the RILs were
screened to assess their level of resistance to RLF by measuring the leaf area damaged. Besides this, the length and width
of the flag leaf of each RIL were measured since these two parameters were considered as correlated traits to the RLF resistance
in rice. All the above parameters observed across the RILs showed quantitative variation. Correlation analysis revealed that
damage score based on greenhouse screening was positively correlated with length and width of the flag leaf. Out of 364 SSR
markers analysed, 90 were polymorphic between the parents. Multi-point analysis carried out on segregating 69 SSR marker loci
linkage group wise resulted in construction of linkage map with eleven groups of 42 SSR markers. Through single marker analysis,
19 SSR markers were found to have putative association with the three phenotypic traits studied. Of these markers, RM472 was
identified as a locus having major effect on RLF resistance trait based on length of the flag leaf. Interval mapping detected
two QTLs on linkage group 1. Among these QTLs, the QTL flanked by RM576–RM3412 were found to be associated with width of the
flag leaf and RLF resistance. The putative SSR markers associated with leaffolder resistance identified in the present study
may be one of the loci contributing resistance to RLF in rice. 相似文献
16.
Summary Week old seedlings of indica rice variety Jaya obtained on basal MS medium and further sub-cultured on agar solidified MS medium supplemented with cytokinins, sucrose (3% w/v) and mannitol (1% w/v) lead to development of multiple shoot buds. Shoot cultures were maintained and multiplied in liquid medium containing BAP 5 mg l-1, sucrose (3% w/v) and mannitol (1% w/v). Profuse rooting was obtained on transfer to MS liquid medium containing IBA 1 mg l-1 and sucrose (3% w/v). Complete plants were successfully transferred to soil and grown to maturity. 相似文献
17.
Rice blast resistance gene ‘Pi-z’ present in rice genotypes, Zenith and Fukunishiki, represents a potential source of blast resistance for the north-western
Himalayan region of India. We tested the reliability of microsatellite markers linked to Pi-z for assessing blast resistance phenotype in crosses of commercial importance. A new set of microsatellite markers linked
to Pi-z was also developed by exploiting the publicly available marker and genomic resources of rice. Of the three previously reported
markers for Pi-z, only MRG5836 was suitable for the marker assisted selection of Pi-z. Among the 17 microsatellites selected from the putative region of Pi-z locus, two, RM8225 and RM8226 cosegregated with MRG5836 and were located at distance of 1.2–4.5 cM from the gene. A new microsatellite marker ‘SSR236’ was developed from the (CT)16 repeat of PAC clone P0502B12, which exhibited closer linkage (0.6–1.2 cM) to Pi-z. Survey of the allelic diversity at the loci of the Pi-z linked microsatellite markers revealed that the Fukunishiki and Zenith type alleles were not present in majority of the local
indica rice genotypes. As these markers are polymorphic between the Pi-z donors and a great majority of local indica rices tested, they can be used as a selection tool in rice breeding programs aimed at improving the blast resistance of local
rices. 相似文献
18.
19.
Yong Xue Jianmin Wan Ling Jiang Chunming Wang Linglong Liu Yuan-ming Zhang Huqu Zhai 《Euphytica》2006,150(1-2):37-45
Summary Quantitative trait loci (QTL) analysis for Al tolerance was performed in rice using a mapping population of 98 BC1F10 lines (backcross inbred lines: BILs), derived from a cross of Al-tolerant cultivar of rice (Oryza sativa L. cv. Nipponbare) and Al-sensitive cultivar (cv. Kasalath). Three characters related to Al tolerance, including root elongation under non-stress conditions (CRE), root elongation under Al stress (SRE) and the relative root elongation (RRE) under Al stress versus non-stress conditions, were evaluated for the BILs and the parents at seedling stage. A total of seven QTLs for the three traits were identified. Among them, three putative QTLs for CRE (qCRE-6, qCRE-8 and qCRE-9) were mapped on chromosomes 6, 8 and 9, respectively. One QTL for SRE (qSRE-4) was identified on chromosome 4. Three QTLs (qRRE-5, qRRE-9 and qRRE-10) for RRE were detected on chromosomes 5, 9, 10 and accounted for 9.7–11.8% of total phenotypic variation. Interestingly, the QTL qRRE-5 appears to be syntenic with the genomic region carrying a major Al tolerance gene on chromosome 6 of maize. Another QTL, qRRE-9, appears to be similar among different rice populations, while qRRE-10 is unique in the BIL population. The common QTLs for CRE and RRE indicate that candidate genes conferring Al tolerance in the rice chromosome 9 may be associated with root growth rates. The existence of QTLs for Al tolerance was confirmed in substitution lines for corresponding chromosomal segments. These results also provide the possibilities of enhancing Al tolerance in rice through using marker-assisted selection (MAS) and pyramiding QTLs. 相似文献
20.
Changhu Wang Peng Zhang Zhenrong Ma Mingyong Zhang Guchou Sun Dinghou Ling 《Euphytica》2004,140(3):217-222
Application of the thermo-sensitive genic male sterile (TGMS) system has a great potential to increase the efficiency of hybrid rice breeding. An indica rice TGMS mutant, 0A15-1, was crossed with a fertile indica line Guisi-8 to map the gene responsible to the TGMS. A RAPD (random amplified polymorphic DNA) maker, S187-770, linked to the TGMS gene at a distance of 1.3 cM in coupling phase was identified. The S187-770 was then cloned and sequenced to develop a dominant SCAR (sequence characterized amplified region) marker. Homology search against rice genome DNA sequence database indicated that S187-770 located on the short arm of chromosome 3 and close to centromere as a single copy sequence. This SCAR marker can be used in the marker-assisted transfer of this gene to different genetic background. As no other TGMS gene has been mapped on rice chromosome 3, the gene from 0A15-1 is a new TGMS gene and tentatively designated tms6(t). 相似文献