A Diploid–Tetraploid Cytochimera of Dashu Tea Selected from a Natural Bud Mutant

Horticulturae Pub Date : 2025-10-18 DOI:10.3390/horticulturae11101259

Chi Zhang, Sulei She, Haiyan Wang, Jiaheng Li, Xiao Long, Guolu Liang, Qigao Guo, Shifang Li, Ge Li, Qian Liu, Di Wu, Jiangbo Dang

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Abstract

Polyploids play significant roles in tea production due to their strong tolerance to adverse environmental conditions and their high levels of certain chemical components. Tetraploid can be used to produce more polyploid tea plants, but there have been only a handful of tetraploids found in tea plants. In spite of the extremely low probabilities, bud mutant selection is an effective way to obtain polyploid tree crops. In the present study, a Dashu tea, cytochimera, derived from a bud mutation was identified by using flow cytometry and chromosome observation. The morphology and photosynthetic characteristics of leaves were investigated briefly. Some chemical components were determined. Finally, the pollen viability and ploidy of progeny were detected. The results show that tetraploid cells account for 71.48 ± 3.88%–72.19 ± 2.80% of the leaf tissue in this cytochimera. Compared with the original diploid, the cytochimera exhibited broader, longer, and thicker leaves. Its net photosynthetic rate (high to 41.77 ± 0.38 μmol CO2·m−2·s−1) was higher than that of the original diploid (peak value 28.00 ± 2.29 μmol CO2·m−2·s−1) for most of the day when measured in September. Notably, the total content of 19 free amino acids in the tender spring shoots of cytochimera was 22.96 ± 0.58 mg/g, approximately twice of that of the diploid materials analyzed. The contents of 10 free amino acids, including theanine, were significantly higher than those in diploids, with some free amino acid contents reaching up to seven times those observed in diploids. In addition, the cytochimera produced larger pollen grains than the original diploid, although the in vitro germination rate was lower (14.63 ± 1.11%). Three open-pollinated progenies of cytochimera were identified as triploids. To sum up, cytochimera has larger and thicker leaves, a higher photosynthetic rate, and higher content of total free amino acids and some free amino acids, especially theanine, than the original diploid. Moreover, cytochimera has a certain level of fertility and can produce triploids. These findings suggest the potential for selecting polyploid tea plants from bud mutants and for developing new tea germplasms with enhanced amino acid contents.

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从天然芽突变体中选育的大树茶二倍体-四倍体细胞嵌合体

多倍体对不利环境条件的耐受性强，某些化学成分含量高，在茶叶生产中起着重要的作用。四倍体可以产生更多的多倍体茶树，但在茶树中发现的四倍体只有少数。芽突变体选育是获得多倍体的有效途径，但选育的概率极低。本研究利用流式细胞术和染色体观察技术，鉴定了一种源于芽突变的细胞嵌合体。对其叶片形态和光合特性进行了简要的研究。测定了一些化学成分。最后对花粉活力和后代倍性进行检测。结果表明，四倍体细胞占叶片组织的71.48±3.88% ~ 72.19±2.80%。与原来的二倍体相比，细胞嵌合体的叶片更宽、更长、更厚。在9月份的测量中，其净光合速率（41.77±0.38 μmol CO2·m−2·s−1）在大部分时间内都高于原始二倍体（峰值28.00±2.29 μmol CO2·m−2·s−1）。细胞嵌合体春嫩枝中19种游离氨基酸的总含量为22.96±0.58 mg/g，约为二倍体材料的2倍。茶氨酸等10种游离氨基酸含量显著高于二倍体，部分游离氨基酸含量可达二倍体的7倍。此外，细胞嵌合体产生的花粉粒比原二倍体大，但离体发芽率较低（14.63±1.11%）。三个细胞嵌合体的开放授粉后代被鉴定为三倍体。综上所述，细胞嵌合体的叶片比原来的二倍体更大、更厚，光合速率更高，总游离氨基酸和某些游离氨基酸，特别是茶氨酸的含量也更高。此外，细胞嵌合体具有一定的育性，可产生三倍体。这些发现提示了从芽突变体中选择多倍体茶树和开发氨基酸含量较高的茶树新品种的潜力。

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