多胚酸柑橘合子苗不育花药形态及细胞质遗传雄性不育性的遗传

Prita Sari Dewi, A. Wakana, Y. Tanimoto, Y. Fujiwara, K. Sakai, Kohei Kajiwara
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引用次数: 9

摘要

在酸性柑橘中,雄性不育的遗传控制是培育无籽水果品种的一个重要特征,但由于存在多胚和长幼期等障碍,目前尚不清楚。本研究对16个雄性可育的酸性柑橘品种进行了22个杂交,并将合子苗嫁接到柑橘成树上,以促进开花。用两株单胚雄性不育柑橘植株(HY16和Kiyomi)进行了4次杂交,并利用开花早的合子苗来检测雄性不育的遗传。在26个杂交组合中,以6个品种为种子亲本的21个杂交组合产生了不同分离率的雄性不育和雄性可育合子苗,而以“苏达奇”为种子亲本的5个杂交组合只产生了雄性可育合子苗。不育花药按大小可分为未发育花药和未发育花药。杂交结果表明,含有柚子、柠檬和蜜桔雄性不育细胞质因子的8个品种均可产生雄性不育合子苗,而含有柚子雄性可育细胞质因子的“水achi”只产生雄性可育合子苗。结果还表明,一个由1个上位基因R1和2个互补基因R2和R3组成的优势核育性恢复基因系统控制着细胞质不育的酸柑植株雄性育性和雄性不育花药大小的恢复,其中互补基因R3位于R2的下游,R1基因是R2和R3基因的上位基因。基因型(S)r1r1r2r2负责未发育的花药,而基因型(S)r1r1R2-r3r3负责未发育的花药。通过对酸性柑桔主要品种雄性不育基因型的鉴定,为选育无籽酸性柑桔品种提供依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Morphology of Sterile Anthers and Inheritance of Cytoplasmic-genetic Male Sterility in Zygotic Seedlings of Polyembryonic Acid Citrus
In acid citrus, genetic control of male sterility, an important characteristic for breeding seedless fruit cultivars, is not precisely known because of the presence of barriers such as polyembryony and a long juvenile phase. In this study, 22 crosses with 16 male-fertile acid citrus cultivars were carried out and the zygotic seedlings were grafted onto adult satsuma mandarin trees to enhance flowering. Four crosses with two monoembryonic and male-sterile citrus plants (HY16 and ‘Kiyomi’) were also carried out and zygotic seedlings showing precocious flowering were used to examine the inheritance of male sterility. Of the 26 crosses, 21 with six cultivars as seed parents generated male-sterile and male-fertile zygotic seedlings with various segregation ratios, whereas five crosses with ‘Sudachi’ as a seed parent generated only male-fertile zygotic seedlings. The sterile anthers were categorized into undeveloped and underdeveloped by their size in most progenies. The result of these crosses showed that eight cultivars with male-sterile cytoplasmic factors of ‘Yuzu’, lemon, or satsuma mandarin generated male-sterile zygotic seedlings, while ‘Sudachi’ with male-fertile cytoplasmic factors of pummelo generated only male fertile zygotic seedlings. The result also suggested that a dominant nuclear fertility-restorer gene system comprising one epistatic gene R1 and two complementary genes R2 and R3 controls the restoration of male fertility and male-sterile anther size in acid citrus plants with sterile cytoplasm (S). The complementary gene R3 is located downstream from R2, and gene R1 is epistatic to R2 and R3 genes. Genotypes (S)r1r1r2r2-are responsible for undeveloped anthers while genotypes (S)r1r1R2-r3r3 are responsible for underdeveloped anthers. The identified genotypes for male sterility in major acid citrus cultivars will contribute to breeding seedless acid cultivars.
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