Genetic Confirmation and Field Performance Comparison for Yield and Quality Among Advanced Generations of Erianthus arundinaceus, E. bengalense and Saccharum spontaneum Cyto-Nuclear Genome Introgressed Sugarcane Intergeneric Hybrids

Kumar Ravinder; Appunu C.; Durai A. Anna; Premachandran M. N.; Viola V. Raffee; Ram Bakshi; Mahadevaiah C.; Meena Mintu Ram; Manjunatha T.

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Genetic Confirmation and Field Performance Comparison for Yield and Quality Among Advanced Generations of Erianthus arundinaceus, E. bengalense and Saccharum spontaneum Cyto-Nuclear Genome Introgressed Sugarcane Intergeneric Hybrids

机译：遗传的确证和田间性能比较，以期获得刺五加，孟加拉肠球菌和自发蔗糖细胞核基因组渗入甘蔗属间杂种的后代。

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Genomic constitution of commercially cultivated sugarcane varieties over the world is derived from few basic species clones of Saccharum complex. In order to impart new cytoplasmic and nuclear genome in sugarcane hybrids, untapped wild species of Saccharum spontaneum (S), Erianthus arundinaceus (E) and E. bengalense (Eb) were utilized to produce different combinations i.e., E. arundinaceus x S. spontaneum (ES), S. spontaneum x E. arundinaceus (SE) and S. spontaneum x E. bengalense (SEb) intergeneric hybrids (H). Subsequently, these resulting hybrids were repeatedly used as pistil parent and crossed with commercial sugarcane varieties as pollen parent for three (G(3)) to four (G(4)) generations to produce an array of advanced generation hybrids. Twenty six such advanced generation hybrids (G(3) and G(4)) derived were evaluated for quality and yield contributing traits at 300 and 360 days after planting during 2010-2011 and 11-12 in augmented block design along with standard sugarcane varieties. The presence of E. arundinaceus cytoplasmic DNA was validated in intergeneric hybrids by PCR-RFLP of the amplified chloroplast DNA for psbC-trnS. Performance of ESH G(3) and SEH G(4) hybrids were comparable and some E. arundinaceus cytoplasm introgressed hybrids performed on par with standard varieties for yield and quality traits. Few intergeneric hybrids exhibited wider acclimatization in diverse agro-climatic conditions. Some of these intergeneric hybrids have potential for commercial cultivation and their utilization in breeding programme could help in broadening the genetic base and also for wider adaptability of future sugarcane varieties.

机译：全世界商业化种植的甘蔗品种的基因组构成是从蔗糖复合物的几个基本物种克隆中获得的。为了在甘蔗杂种中赋予新的细胞质和核基因组，利用未开发的野生蔗糖（S），赤莲（Erianthus arundinaceus）（E）和孟加拉肠球菌（E. bengalense）（Eb）来产生不同的组合，例如，阿伦丁藻x鼻链球菌（ES），S。spontaneum x E. arundinaceus（SE）和S. spontaneum x Bengalense（SEb）属间杂种（H）。随后，这些生成的杂种被反复用作雌蕊亲本，并与商业甘蔗品种作为花粉亲本杂交三代（G（3））至四代（G（4）），以生产一系列先进的杂种。在2010-2011年和11-12年间，在种植的300和360天以及增强甘蔗设计中种植11-12天后，与标准甘蔗品种一起评估了二十六个这样的先进杂交种（G（3）和G（4））的品质和产量贡献特征。。通过对psbC-trnS扩增的叶绿体DNA的PCR-RFLP验证了属间杂种中金缕梅胞质DNA的存在。 ESH G（3）和SEH G（4）杂种的表现可比，一些金毛菜胞质渗入杂种的产量与品质性状与标准品种相当。在不同的农业气候条件下，很少有种间杂种表现出更广泛的适应性。这些属间杂种中的一些具有商业化种植的潜力，它们在育种程序中的利用可有助于拓宽遗传基础，并有助于未来甘蔗品种的更广泛适应性。

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来源
《Sugar Tech》 |2015年第4期|379-385|共7页
作者
Kumar Ravinder; Appunu C.; Durai A. Anna; Premachandran M. N.; Viola V. Raffee; Ram Bakshi; Mahadevaiah C.; Meena Mintu Ram; Manjunatha T.;
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作者单位

Sugarcane Breeding Inst ICAR, Div Crop Improvement, Coimbatore 641007, Tamil Nadu, India|Sugarcane Breeding Inst, Reg Ctr, Karnal, Haryana, India;

Sugarcane Breeding Inst ICAR, Div Crop Improvement, Coimbatore 641007, Tamil Nadu, India;

Sugarcane Breeding Inst ICAR, Div Crop Improvement, Coimbatore 641007, Tamil Nadu, India;

Sugarcane Breeding Inst ICAR, Div Crop Improvement, Coimbatore 641007, Tamil Nadu, India;

Sugarcane Breeding Inst ICAR, Div Crop Improvement, Coimbatore 641007, Tamil Nadu, India;

Sugarcane Breeding Inst, Reg Ctr, Karnal, Haryana, India;

Sugarcane Breeding Inst ICAR, Div Crop Improvement, Coimbatore 641007, Tamil Nadu, India;

Sugarcane Breeding Inst, Reg Ctr, Karnal, Haryana, India;

Sugarcane Breeding Inst ICAR, Div Crop Improvement, Coimbatore 641007, Tamil Nadu, India;

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正文语种 eng
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Sugarcane intergeneric hybrids; Cytoplasmic DNA; Erianthus spp; S. spontaneum;

机译：甘蔗属间杂种;细胞质DNA;赤眼石;S。自发性;

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外文文献

1. Molecular identification and genetic improvement vis-a-vis comparison of yield and quality in different generations of Erianthus arundinaceus, E. bengalense and Saccharum spontaneum cyto-nuclear genome introgressed sugarcane [J] . Kumar Ravinder, Premachandrani M. N., Appunu C., Indian Journal of Biotechnology . 2015,第2期

机译：分子生物学鉴定和遗传改良，比较刺五加，孟加拉大肠埃希菌和自发蔗糖细胞核基因组渗入甘蔗不同世代的产量和品质
2. Verification of Progeny from Crosses Between Sugarcane (Saccharum spp.) and an Intergeneric Hybrid (Erianthus arundinaceus × Saccharum spontaneum) with Molecular Makers [J] . Yi-Jing Gao, Xi-Hui Liu, Rong-Hua Zhang, Sugar Tech . 2015,第1期

机译：用分子标记仪验证甘蔗（Saccharum spp。）和属间杂种（Erianthus arundinaceus×Saccharum spontaneum）杂交后代
3. Genome Characterization of In Vitro Induced Amphiploids of an Intergeneric Hybrid Erianthus arundinaceus x Saccharum spontaneum [J] . Premachandran M. N., Sobhakumari V. P., Lekshmi Maya, Sugar Tech . 2017,第4期

机译：属间杂种Erianthus arundinaceus x Saccharum spontaneum的体外诱导的二倍体的基因组表征
4. Cytogenetic and agronomic characterization of intergeneric hybrids between Saccharum spp. hybrid and Erianthus arundinaceus [O] . Babil Pachakkil, Yoshifumi Terajima, Nobuko Ohmido, -1

机译：糖蔗属之间种间杂种的细胞遗传学和农艺学表征。杂种和Erianthus arundinaceus

Genetic Confirmation and Field Performance Comparison for Yield and Quality Among Advanced Generations of Erianthus arundinaceus, E. bengalense and Saccharum spontaneum Cyto-Nuclear Genome Introgressed Sugarcane Intergeneric Hybrids

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