Isolation of a new repetitive DNA sequence from Secale africanum enables targeting of Secale chromatin in wheat background   总被引：1，自引：0，他引：1  

Cheng Liu  Zu-Jun Yang  Guang-Rong Li  Zi-Xian Zeng  Yong Zhang  Jian-Ping Zhou  Zhao-Hui Liu  Zheng-Long Ren 《Euphytica》2008,159(1-2):249-258

A genome specific DNA sequence that detects Secale africanum chromatin incorporated into wheat was developed in this study. Random amplified polymorphic DNA (RAPD) analysis was used to search for genome specific DNA sequences of S. africanum in lines, R111, “mianyang11” (MY11) and wheat-rye 1RS/1BL translocations R25 and R57. A high copy rye-specific DNA segment pSaD15₉₄₀ of the S. africanum genome was obtained. The sequence of pSaD15 did not show any significant homology to other reported sequences in databases and it is therefore a new repetitive sequence of Secale. PCR primers were designed for pSaD15₉₄₀, which amplify a clear 887 bp fragment in S. africanum but not in any wheat. The primers also amplified an 887 bp fragment in other accessions of rye, Chinese Spring-Imperial rye chromosome additions and a diverse range of material carrying different rye chromosomes or chromosomal segments. In situ hybridization showed that probe pSaD15₉₄₀ was specifically hybridized throughout all rye chromosomes arms except for the terminal regions. The advantage of the rye-specific probe developed herein compared to those of previous reports is that it has been shown to be widely applicable to other Secale species. The probe will be useful as a molecular marker for the introgression of S. africanum and other rye chromosome segments into the wheat genome.  相似文献   

High‐throughput development of SSR marker candidates and their chromosomal assignment in rye (Secale cereale L.)          下载免费PDF全文

Jianjian Li  Ruonan Zhou  Takashi R. Endo  Nils Stein 《Plant Breeding》2018,137(4):561-572

Shotgun survey sequences of flow‐sorted individual rye chromosomes were data mined for the presence of simple sequence repeats (SSRs). For 787,850 putative SSR loci, a total of 358,660 PCR primer pairs could be designed and 51,138 nonredundant SSR marker candidates were evaluated by in silico PCR. Of the 51,138 SSR primer candidates, 1,277 were associated with 1,125 rye gene models. A total of 2,112 of the potential SSR markers were randomly selected to represent about equal numbers for each of the rye chromosomes, and 856 SSRs were assigned to individual rye chromosomes experimentally. Potential transferability of rye SSRs to wheat and barley was of low efficiency with 4.3% (2,189) and 0.4% (223) of rye SSRs predicted to be amplified in wheat and barley, respectively. This data set of rye chromosome‐specific SSR markers will be useful for the specific detection of rye chromatin introgressed into wheat as well as for low‐cost genetic and physical mapping in rye without the need for high‐tech equipment.  相似文献   

Oligogenic control of resistance to soil‐borne viruses SBCMV and WSSMV in rye (Secale cereale L.)          下载免费PDF全文

Wiltrud Erath  Eva Bauer  Ute Kastirr  Malthe Schmidt  Viktor Korzun  Brigitta Schmiedchen  Peer Wilde  Chris‐Carolin Schön 《Plant Breeding》2016,135(5):552-559

Rye production in European growing areas is constrained by the soilborne cereal mosaic virus (SBCMV) and the wheat spindle streak mosaic virus (WSSMV). To date, no European rye cultivars are known to exhibit resistance against these viruses. In this study, we pursued a quantitative trait locus (QTL) mapping strategy to identify genomic regions for resistance to SBCMV and WSSMV in rye. Three populations, each comprising 100 lines segregating for resistance to SBCMV and/or WSSMV, were evaluated for disease response at two years in three locations in Germany where soils are naturally infested with SBCMV and WSSMV. In the combined analysis across environments, one QTL for SBCMV resistance on chromosome 5R explained 31.9% of the phenotypic variation in one of the populations. For WSSMV resistance, one QTL explaining up to 64.0% of the phenotypic variation was detected on chromosome 7R in each of the three populations. On the Triticeae homoeologous group 5, we found evidence for synteny of the major QTL for SBCMV resistance between the wheat and rye genomes.  相似文献   

Dosage Response of Rye Genes in a Wheat Background     

D. C. Bittel    A. Fominaya    N. Jouve  J. P. Gustafson 《Plant Breeding》1992,108(4):283-289

Wheat (Triticum aestivum L.) breeders often utilize alien sources to supply new genetic variation to their breeding programs. However, the alien gene complexes have not always behaved as desired when placed into a wheat background. The introgressed genes of interest may be linked to undesirable genes, expressed at low levels or not at all. The short arm of rye (Secale cereale L.) chromosome one (1RS) contains many valuable genes for wheat improvement. In order to study rye gene response to varying copy number, wheat lines were constructed which contained zero, two or four doses of 1RS. The meiotic behavior of rye chromosome 1R, and wheat/rye translocation chromosomes, 1AL/1RS and 1BL/1RS was studied in the F₁ hybrids between wheat lines carrying 1R or the translocation chromosomes. The IRS arm was transmitted at a very high frequency; 98 % of the F₂ plants had at least one of the chromosomes with a IRS arm. In addition, 44 % of the F₂ plants received at least one copy of the chromosomes from each parent. Analysis of the meiotic behavior of the IRS arm suggested that few euploid wheat gametes were formed. Therefore, most of the pollen must have contained IRS. It is unknown whether the lack of euploid wheat pollen could account for the high transmission frequency of the rye chromosomes. There may have been differential survival of the embryos receiving the rye chromosome as well.  相似文献   

Characterization of wheat-triticale doubled haploid lines by cytological and biochemical markers   总被引：2，自引：0，他引：2  

X. Q. Zhang    X. P. Wang    J.K. Jing    K. Ross    H. Hu    J. P. Gustafson   《Plant Breeding》1998,117(1):7-12

Five wheat-triticale doubled haploid (DH) lines— M08, V209, DH220-14-2, DH696-3-4 and M16 —derived from anther culture of F₁s resulting from crosses involving hexaploid or octoploid triticale × hexaploid wheat, were characterized by cytological and biochemical markers. Cytological evidence from genomic in situ hybridization and C-banding indicated that DH lines M08 and V209 (2n= 42) each contained a pair of 1BL/1RS translocation chromosomes. DH220-14-2 (2n= 42) was also a translocated line with two pairs of chromosomes containing small fragments of rye. One of the translocation fragments carried the Sec-1R gene originating from the satellite region of 1RS; the origin of the other one remains unknown. DH696-3-4 (2n= 42) contained a 3D(3R) substitution. In M16 (2n= 44), three pairs of rye chromosomes, 3R, 4R and 6R, were present, 4R as an addition and 3D(3R) and 6D(6R) as substitutions. Biochemical, isozyme and storage protein markers confirmed the cytological conclusions. The advantages of transferring alien chromosomes or chromosome fragments into wheat and creating alien aneuploid lines by anther culture of hybrid F¹s are discussed.  相似文献   

小麦EST-SSR标记的开发和染色体定位及其在追踪黑麦染色体中的应用   总被引：7，自引：1，他引：6  

庄丽芳  宋立晓  冯祎高  钱保俐  徐海滨  裴自友  亓增军 《作物学报》2008,34(6):926-933

根据小麦盐胁迫诱导和茎秆组织相关EST序列开发了81对EST-SSR引物, 其中67、46、18和61对分别在小麦、黑麦、簇毛麦和大麦基因组中稳定扩增, 在不同小麦和大麦品种间具有多态性的引物分别有22和23对。利用小麦缺体-四体系共定位了43对引物的81个位点, 其中A、B和D染色体组上分别有29、30和22个位点, 涉及除4B、3D和6D外的18条染色体。此外30对引物在黑麦基因组中具有特异扩增, 其中8对分别在黑麦1R、4R、5R和R7染色体上具有特异扩增, 7对在多条黑麦染色体具有相同扩增。这些新标记可有效用于小麦及其近缘物种的遗传作图与比较遗传研究。  相似文献   

The Identification of a Gibberellic-Acid-Insensitive Gene in Secale cereale*     

M. Jlicne  J. P. Gustafson 《Plant Breeding》1992,108(3):229-233

Among 16 dwarfing genes identified in wheat (Triticum aestiuvm L. em Thell.), four are known to be associated with insensitivity to the externally-supplied growth hormone gibberellin (GA). Rht1 and Rht2 (Reduced height 1 and 2, respectively) have been the most extensively used, because of their positive effect on yield. To increase the germplasm pool for dwarfism, a spring rye (Secale cereale) population (UC-90, CI-174) was selected because it contains high variability and any useful genes would benefit triticale and wheat as well. Seedlings of the CI-174 rye population were treated with 50 ppm of GA to identify any insensitive types. GA-insensitive and -sensitive seedlings were identified and, after three generations of selfing, GA-insensitive and -sensitive lines were fixed. Rye insensitive was crossed to a sensitive wheat and to rye and, reciprocally, insensitive wheat was crossed to sensitive rye. The results indicated that a GA-insensitivity dwarfism system similar to that originally found in wheat also operates in rye and appears to be under simple inheritance. Rye GA-insensitivity was expressed in triticale. Therefore, it is possible to transfer this new source of insensitivity and dwarfism into triticale and wheat.  相似文献   

Genetical Studies of Gibberellic Acid Insensitivity in Rye (Secale cereale L.)     

A. Börner 《Plant Breeding》1991,106(1):53-57

Genetic analysis of three semi-dwarf genotypes of rye (Secale cereale L.)—‘Moskowskij Karlik’, ‘Gülzow kurz’ and ‘R 18’, which were shown to be insensitive to applied gibberellic acid (GA₃), has been carried out by using a seedling test. It could be demonstrated that all of the three genotypes are carrying recessive alleles for GA-insensitivity. Whereas the alleles of ‘Moskowskij Karlik’ and ‘R 18’ seem to have the same locus on chromosome 5R, the GA-insensitivity of ‘Gülzow kurz’ is governed by a different gene, most probably located on chromosome 7R. The relationship between the genes (alleles) for GA-insensitivity and semi-dwarfness, including the symbolization of the Gai-genes as well as their utilization in rye breeding is discussed.  相似文献   

普通小麦辉县红-荆州黑麦异染色体系的选育及其梭条花叶病抗性鉴定   总被引：3，自引：1，他引：3  

李爱霞  亓增军  裴自友  庄丽芳  冯高  王秀娥 《作物学报》2007,33(4):639-645

为发掘和利用荆州黑麦所携抗梭条花叶病基因，综合利用分子细胞遗传学与分子标记技术结合多年抗性鉴定，从高感梭条花叶病小麦地方品种辉县红与荆州黑麦杂交后代（F₇~F₉）中选育出二体异附加系5个(分别添加1R、2R、R3、5R和R7)、5RS端二体异附加系1个和多重异附加代换系2个（染色体组成分别为20’’+2R(2D)’’+4R’’和19’’+1R（1B）’’+2R（2B）’’+4R’’）。鉴定表明，双二倍体荆辉1号高抗梭条花叶病，表明黑麦抗性基因可在小麦背景中稳定表达，2R、R7二体异附加系及2个含2R的多重异附加代换系均表现高抗，推测2R和R7上可能携带抗病基因。这些材料是研究荆州黑麦抗性基因遗传及小麦抗病育种的新种质。  相似文献   

Identification, characterisation, and chromosome locations of rye and wheat specific ISSR and SCAR markers useful for breeding purposes     

Alain Vaillancourt  K. K. Nkongolo  Paul Michael  Melanie Mehes 《Euphytica》2008,159(3):297-306

Rye (Secale cereale L. and S. strictum) offers potential to increase the genetic variability and to introduce desirable characters for wheat improvements. Cytogenetic techniques have been used to screen wheat lines containing rye chromatin. These techniques are not adequate since they are highly technical and time consuming. They are not suitable for breeding programs that require rapid screening of large numbers of genotypes. The main objective of this study was to develop and characterize ISSR and SCAR markers that can distinguish wheat from rye genome. Total DNA from wheat, rye, and triticale accessions from different provenances were amplified with ISSR primers in PCR assays. Three wheat-diagnostic sequences were identified. In addition three rye-diagnostic ISSR markers of which, one marker specifically diagnostic for Secale strictum were characterized. Pairs of primers flanking these specific sequences were designed to produce SCAR markers. Two SCAR markers were rye genome-specific. One SCAR was present in all the seven rye chromosome, and another was specific to rye chromosomes two, three, four, and seven. These newly developed ISSR and SCAR markers should be useful to wheat breeders screening genotypes that may contain rye chromatins.  相似文献   

生物素标记的重复DNA序列与黑麦染色体的原位杂交   总被引：3，自引：0，他引：3  

钟少斌  张德玉 《作物学报》1995,21(6):691-694

本研究以两个黑麦重复ＤＮＡ序列ｐＳｃ１１９．１和ｐＳｃ１１９．２作探针进行原位杂交，研究其在小麦和黑麦杂色体上的分布及在检测黑麦染色质中的应用。实验结果表明：ｐＳｃ１１９．１分布于所有黑麦染色体的长短臂上，但在小麦染色体上几乎检测不到杂交信号，证明ｐＳｃ１１９．１对黑麦染色体具有专化性。进一步用该探针与小麦品种“Ａｍｉｇｏ”的体细胞染色体进行原位杂交，可明显检测出其中一对含ＩＲＳ的染色体。ｐＳｃ１  相似文献   

黑麦重复序列在检测小麦品种中外源染色体的应用   总被引：2，自引：0，他引：2  

刘春燕  闫红飞  杨文香  孟庆芳  刘大群 《分子植物育种》2011,9(1):97-103

本研究根据RAPD引物OPH20在黑麦中扩增出的特异序列pSc20H.2设计一对PCR引物pSc20ht-23/24,以来源于黑麦的小麦抗叶锈近等基因系材料TcLr45及感病对照Thatcher为亲本进行PCR扩增。并对42个小麦抗叶锈近等基因系及103个小麦品种材料进行检测。引物pSc20ht23/24在TcLr45中扩增出一条约750bp的条带,而在Thatcher中无扩增条带。对该特异片段回收、克隆测序为734bp。42个小麦抗叶锈近等基因系检测在TcLr26中扩增出与TcLr45相同的条带,而在同样来源于黑麦的小麦抗叶锈近等基因系TcLr25中未扩增出该条带;中国春-Imperial黑麦附加系1R-7R中除5R外均扩增出该条带;13个1B/1R易位系小麦品种也扩增出该条带;90个地方小麦品种中有16个扩增出该条带,6个品种经系谱分析具有黑麦遗传背景,表明该标记可用于检测小麦中含有的除黑麦5R染色体之外的外源染色质。  相似文献   

Heterosis in Primary Hexaploid Triticale with Heterozygous Wheat or Rye Genome*)     

G. Oettler  H. H. Geiger  H. F. Utz 《Plant Breeding》1988,100(3):161-168

Twelve primary hexaploid triticale (X Triticosecale Wittmack), synthesized from, three lines of tetraploid wheat (Triticum durum L., T. turgidum L.) and four inbred lines of rye (Secale cereale L.), were used to produce 18 crosses with homozygous wheat and heterozygous rye genome and 12 crosses with heterozygous wheat and homozygous rye genome. Parents and crosses of triticale, wheat, and rye were tested for two years (rye for one year only) in two-replicate block designs with 1 m²-plots. Data were assessed for plant height, grain yield and for yield-related traits. Performance of triticale crosses was considerably lower than that of the wheat and rye crosses. The amount of heterosis varied greatly between years. Positive and mainly significant heterosis was revealed in triticale generations F₁ and F₂. The average values were closer to those in wheat than to those in rye. For most characters a high level of heterosis was retained in tnucalt1 generation F₂. Heterozygosity of the wheat and rye genome both contributed to heterosis in triticale. However, gene action of the rye genome strongly depended on the homozygous wheat background: one wheat line almost completely suppressed and another greatly stimulated the heterotic effect of the rye genome. In the later case, the amount of heterosis was related to that in rye per se. Information from hybrid rye breeding may therefore be used when establishing gene pools for hybrid breeding in triticale.  相似文献   

Intergeneric Hybrids between Aegilops squarrosa and Secale cereale and their Meiotic Chromosome Behaviour     

J. Kawakubo  T. Taira 《Plant Breeding》1992,109(2):108-115

Three hybrid plants with different combinations of D and R genomes were produced from crosses between Aegilops squarrosa (2×: and 4×) and Secale cereale (2× and 4×) using embryo culture. Production frequencies of mature hybrids, having the genomes DR, DDR and DDRR, were 2.0%, 5.2% and 2.2 %, respectively, of florets pollinated. Amphidiploids were obtained directly from the cross between tetraploid parents. The majority of their morphological features were intermediate between those of the parents but, as with rye, the rachis was tough. Diploid and triploid hybrids were completely seed-sterile, whereas the amphidiploid had an average self-fertility of 4.5 % with a range of 0 to 45 %. The somatic chromosome numbers of diploids, triploids and amphidiploids were 2n = 14, 21 and 28, respectively. At meiotic metaphase I, the mean chromosome associations were 0.01 III + 0.26 II + 13.4 I in diploids, 6.96 II + 7.1 I in triploids, and 10.5 II + 7.9 I in amphidiploids. In diploids, pairing between D and R chromosomes was observed in the form of end-to-end types without chiasmata. Homologous pairing between D chromosomes was predominant in plants having two sets of D genomes. Amphidiploids showed a diploid-like chromosome behaviour. Homoeologous pairing was not observed in either triploids or amphidiploids.  相似文献   

Genetic mapping of quantitative trait loci in rye (Secale cereale L.)     

A. Börner  V. Korzun  A.V. Voylokov  A.J. Worland  W.E. Weber 《Euphytica》2000,116(3):203-209

Using the marker information of 275 F₂ plants quantitative traits determining morphological and yield characters were studied analyzing F₃progenies grown in four different experiments at three sites. The map constructed contains 113 markers including the major dwarfing gene Ddw1 with an average distance of about 10 cM between adjacent markers. Of the 21 QTLs detected ten were found to map on chromosome 5RL in the region of Ddw1. Beside the expected effects on plant height and peduncle length that are most probably due to the presence of the major dwarfing gene, additional effects on yield characters and flowering time were discovered in that region which may be caused by pleiotropic effects of Ddw1. An additional supposed gene cluster consisting of four QTLs controlling flowering time and yield components was discovered in the centromere region of chromosome 2R. Further loci are distributed on chromosomes 1R (1), 4R (1) 6R (3) and 7R (1). The map positions of the quantitative trait loci detected in rye are discussed in relation to major genes or QTLs determining agronomically important traits in other cereals. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

Cytological identification of 1B/1R wheat-rye translocations in winter wheat breeding lines     

A. Lane Rayburn  Brett F. Carver 《Euphytica》1988,38(3):237-240

Summary The incorporation of rye (S. cereale L.) chromatin into winter wheat (T. aestivum L.) cultivars is often achieved via hybridization of unadapted wheat-rye translocation lines with adapted wheat germplasm. Identification of progenies possessing the translocated chromosome has traditionally involved phenotypic screening for the desired rye characteristics. In this study, the Giemsa N-banding technique was evaluated as a potential screening tool for detection of 1B/1R wheat-rye translocations. Five breeding lines were examined from the pedigree Aurora/2^*TAM W-101. The differential banding patterns of chromosome 1B contributed by TAM W-101 and chromosome 1B/1R contributed by Aurora allowed unequivocal identification of translocation genotypes. Three of the lines were found to be heterogeneous, whereby plants were homozygous for either the normal 1B or the translocated 1B/1R chromosome. The remaining two lines were observed to be homozygous and homogeneous for the translocated 1B/1R chromosome. The implication of N-banding chromosomal analyses to wheat breeding is presented.Contribution No. J-5172, Department of Agronomy, Oklahoma Agriculture Experiment Station, Oklahoma State University, Stillwater, OK74078.  相似文献   

普通小麦近缘物种黑麦1R、簇毛麦1V及鹅观草1Rk#1染色体特异分子标记的筛选     

王春梅  冯袆高  庄丽芳  曹亚萍  亓增军  别同德  曹爱忠  陈佩度 《作物学报》2007,33(11):1741-1747

为筛选普通小麦近缘物种黑麦1R、簇毛麦1V及鹅观草1Rk^#1染色体特异分子标记，根据已定位于普通小麦第一部分同源群的EST序列设计104对STS引物，对中国春、鹅观草、黑麦及簇毛麦进行多态性分析。在104对STS引物中，有53对在对照普通小麦中国春与鹅观草、黑麦及簇毛麦之间存在多态性。利用普通小麦-黑麦1R~7R二体异附加系筛选出5对黑麦1R染色体特异标记，分别是CINAU 19-₅₀₀、CINAU20-₉₅₀、CINAU21-₁₅₀₀、CINAU22-₃₁₀和CINAU23-₂₀₀₀；利用普通小麦-簇毛麦1V~7V二体异附加系筛选出5对簇毛麦1V染色体特异标记，分别是CINAU23-₁₇₀₀、CINAU24-₁₀₅₀、CINAU25-₁₆₅₀、CINAU26-₅₀₀和CINAU27-₆₂₀；利用鹅观草二体异附加系DA1Rk^#1、异代换系DS1Rk^#1(1A)、端体系DA1Rk^#1L、易位系T1Rk^#1S·W、长臂缺失系Del1Rk#1L筛选出5对鹅观草1Rk^#1特异标记，分别是CINAU27-₉₆₀、CINAU28-₁₃₆₀、CINAU29-₄₈₀、CINAU30-₅₆₀和CINAU31-₅₂₀。研究表明，可以利用普通小麦的EST序列设计PCR引物，转化成STS标记，筛选普通小麦近缘物种黑麦、簇毛麦及鹅观草等染色体特异的分子标记，快速检测和追踪导入普通小麦背景中的黑麦1R、簇毛麦1V及鹅观草1Rk^#1染色体或染色体片段，为深入研究普通小麦远缘杂种材料提供新的工具。  相似文献   

Alleles on the two dwarfing loci on 4B and 4D are main drivers of FHB‐related traits in the Canadian winter wheat population “Vienna” × “25R47”          下载免费PDF全文

Ljiljana Tamburic‐Ilincic  Silvia Barcellos Rosa 《Plant Breeding》2017,136(6):799-808

Fusarium head blight (FHB), leaf rust and stem rust are among the most destructive wheat diseases. High‐yielding, native disease resistance sources are available in North America. The objective of this study was to map loci associated with FHB traits, leaf rust, stem rust and plant height in a “Vienna”/”25R47” population. DArT markers were used to generate a genetic map, and quantitative trait loci (QTL) analysis was performed by evaluating 113 doubled haploid lines across three environments in Ontario, Canada. FHB resistance QTL were identified on chromosomes 4D, 4B, 2D and 7A, while a QTL for leaf and stem rust resistance was identified on chromosome 1B. The dwarfing alleles of both Rht‐B1 and Rht‐D1 were associated with increased FHB index and DON content.  相似文献   

Effect of alien 5R(5A) chromosome substitution on ear-emergence time and winter hardiness in wheat-rye substitution lines     

T. T. Efremova  O. I. Maystrenko  V. S. Arbuzova  L. I. Laikova  G. M. Panina  O. M. Popova  O. V. Berezova 《Euphytica》2006,151(2):145-153

Ear emergence time and response to vernalization were investigated in 12 alien substitution lines in which a pair of chromosomes 5A of recipient spring wheat cultivars was replaced by a pair of chromosomes 5R of Siberian spring rye ‘Onokhoiskaya’. The recipients were 12 spring cultivars of common wheat, each carrying different Vrn genes. Spring rye ‘Onokhoiskaya’ had the Sp1 (now called Vrn-R1) gene for spring growth habit located on chromosome 5R, but its expression was weaker. The Vrn-R1 gene had no effect on growth habit, ear emergence time and response to vernalization in wheat-rye substitution lines. Ears emerged significantly later in the 5R(5A) alien substitution lines than in the recipient wheat cultivars with the Vrn-A1/Vrn-B1/vrn-D1 or Vrn-A1/vrn-B1/Vrn-D1 genotypes. No difference in ear emergence time was found between most of the 5R(5A) alien substitution lines and the cultivars carrying the recessive vrn-A1 gene. The presence of the Vrn2a and Vrn2b alleles at the Vrn2 (now called Vrn-B1) locus located on wheat chromosome 5B was confirmed.The replacement of chromosome 5A by chromosome 5R in wheat cultivars ‘Rang’ and ‘Mironovskaya Krupnozernaya’, which carries the single dominant gene Vrn-A1, converted them to winter growth habit. In field studies near Novosibirsk the winter hardiness of 5R(5A) wheat–rye substitution lines of ‘Rang’ and ‘Mironovskaya Krupnozernaya’ was increased by 20–47% and 27–34%, respectively, over the recurrent parents.  相似文献   

Genetic control of esterase-6 isozymes in hexaploid wheat and rye     

N. Jouve  F. Diaz 《Euphytica》1990,47(2):165-169

Summary The EST-6 leaf esterase phenotypes from euploid, nullisomic-tetrasomic and rye chromosome addition and substitution lines of common wheat were determined using polyacrylamide gel electrophoresis. Evidence is presented to demonstrate that Est-6 is a new set of genes, that are expressed in the leaf. The Est-6 gene set were clearly distinguished from the Est-5 genes which are expressed in the grain. The three homoeoallelic loci, Est-A6, Est-B6 and Est-D6, were located on chromosomes 3A, 3B and 3D. An Est-R6 gene was located on chromosome 6R is involved in rye. Some considerations concerning homoeology between homoeologous group 3 of wheat and the rye chromosome 6R are made.  相似文献