Hsieh Huei-Mei, Chung Mei-Chu, Chen Pao-Yang, Hsu Fei-Man, Liao Wen-Wei, Sung Ai-Ning, Lin Chun-Ru, Wang Chung-Ju Rachel, Kao Yu-Hsin, Fang Mei-Jane, Lai Chi-Yung, Huang Chieh-Chen, Chou Jyh-Ching, Chou Wen-Neng, Chang Bill Chia-Han, Ju Yu-Ming
Institute of Plant and Microbial Biology, Academia Sinica, Taipei, 11529, Taiwan.
Graduate Institute of Biotechnology, National Changhua University of Education, Changhua, 50074, Taiwan.
Bot Stud. 2017 Sep 19;58(1):39. doi: 10.1186/s40529-017-0191-9.
Termitomyces mushrooms are mutualistically associated with fungus-growing termites, which are widely considered to cultivate a monogenotypic Termitomyces symbiont within a colony. Termitomyces cultures isolated directly from termite colonies are heterokaryotic, likely through mating between compatible homokaryons.
After pairing homokaryons carrying different haplotypes at marker gene loci MIP and RCB from a Termitomyces fruiting body associated with Odontotermes formosanus, we observed nuclear fusion and division, which greatly resembled meiosis, during each hyphal cell division and conidial formation in the resulting heterokaryons. Surprisingly, nuclei in homokaryons also behaved similarly. To confirm if meiotic-like recombination occurred within mycelia, we constructed whole-genome sequencing libraries from mycelia of two homokaryons and a heterokaryon resulting from mating of the two homokaryons. Obtained reads were aligned to the reference genome of Termitomyces sp. J132 for haplotype reconstruction. After removal of the recombinant haplotypes shared between the heterokaryon and either homokaryons, we inferred that 5.04% of the haplotypes from the heterokaryon were the recombinants resulting from homologous recombination distributed genome-wide. With RNA transcripts of four meiosis-specific genes, including SPO11, DMC1, MSH4, and MLH1, detected from a mycelial sample by real-time quantitative PCR, the nuclear behavior in mycelia was reconfirmed meiotic-like.
Unlike other basidiomycetes where sex is largely restricted to basidia, Termitomyces maximizes sexuality at somatic stage, resulting in an ever-changing genotype composed of a myriad of coexisting heterogeneous nuclei in a heterokaryon. Somatic meiotic-like recombination may endow Termitomyces with agility to cope with termite consumption by maximized genetic variability.
鸡枞菌与培菌白蚁存在共生关系,人们普遍认为一个蚁群中只培育单一基因型的鸡枞菌共生体。直接从白蚁蚁群中分离出的鸡枞菌培养物是异核体,可能是通过兼容的同核体之间的交配形成的。
在将来自与黑翅土白蚁相关的鸡枞菌子实体的、在标记基因位点MIP和RCB携带不同单倍型的同核体配对后,我们在所得异核体的每个菌丝细胞分裂和分生孢子形成过程中观察到了核融合和分裂,这与减数分裂极为相似。令人惊讶的是,同核体中的细胞核也表现出类似的行为。为了确认菌丝体内是否发生了类似减数分裂的重组,我们从两个同核体的菌丝体以及这两个同核体交配产生的一个异核体构建了全基因组测序文库。将获得的 reads 与鸡枞菌属 J132 的参考基因组进行比对以重建单倍型。在去除异核体与任一同核体共享的重组单倍型后,我们推断异核体中5.04%的单倍型是全基因组范围内同源重组产生的重组体。通过实时定量PCR从菌丝体样本中检测到包括SPO11、DMC1、MSH4和MLH1在内的四个减数分裂特异性基因的RNA转录本,再次证实了菌丝体中的核行为类似减数分裂。
与其他担子菌不同,在其他担子菌中,有性生殖主要局限于担子,而鸡枞菌在体细胞阶段将有性生殖最大化,导致异核体中由无数共存的异质核组成的基因型不断变化。体细胞类似减数分裂的重组可能通过最大化遗传变异性赋予鸡枞菌应对白蚁消耗的灵活性。
