Changes in Pattern of Microtubule Organization During Meiosis in Pollen Mother Cell of Autotetraploid Rice

Q3 Agricultural and Biological Sciences Acta Agronomica Sinica Pub Date : 2010-10-01 DOI:10.1016/S1875-2780(09)60080-8
Jin-Hua HE , Xing-An CHENG , Zhi-Xiong CHEN, Hai-Bin GUO, Xiang-Dong LIU, Yong-Gen LU
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Abstract

Changes in microtubule distribution and chromosome behavior in autotetraploid rice during meiosis of pollen mother cell (PMC) were observed in detail using indirect-immunofluorescence laser scanning confocal microscopy. The result showed that microtubule distribution pattern in PMC of the autotetraploid rice was similar to that of the diploid rice during meiosis, but the microtubule behaviors were different, e.g., longer circumferential microtubules and more spindle microtubules in autotetraploid rice. At prophase I, microtubules were decreased in number and distributed unevenly at leptotene. At zygotene, microtubules with unobvious polar distribution formed a diffuse network. At pachytene, nucleolus disintegrated and distorted microtubules structures were found. At diplotene, no circumferential microtubule was found and microtubules depolymerization was observed in advance. At diakinesis, microtubules were decreased in number. Perinuclear microtubules were knitted abnormally. At metaphase I, many abnormalities appeared in spindle. At telophase I, phragmoplast was abnormal, and speckled microtubules were found in the cell. At telophase II-tetra stage, 2 daughter cells did not separate, and microtubules randomly arranged in trifission. These results showed that microtubule abnormal reorganization pattern had a close relationship with abnormal chromosome behavior, which may act synergistically on pollen fertility and seed setting rate of autotetraploid rice.

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同源四倍体水稻花粉母细胞减数分裂过程中微管组织模式的变化
利用间接免疫荧光激光扫描共聚焦显微镜,详细观察了同源四倍体水稻花粉母细胞减数分裂过程中微管分布和染色体行为的变化。结果表明,在减数分裂过程中,自四倍体水稻PMC的微管分布模式与二倍体水稻相似,但微管行为不同,即自四倍体水稻的圆周微管更长,纺锤体微管更多。前期微管数量减少,微管分布不均匀。在合子蛋白处,微管极性分布不明显,形成弥漫性网络。粗线期核仁崩解,微管结构扭曲。在二plotene处,未发现微管的周长,提前观察到微管解聚。在透析时,微管数量减少。核周微管编织异常。中期I,纺锤体出现许多异常。末期1,细胞层质体异常,细胞内可见斑点状微管。在末期ii -四期,2个子细胞不分离,微管随机排列。这些结果表明,微管异常重组模式与染色体异常行为密切相关,可能对同源四倍体水稻的花粉育性和结实率有协同作用。
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审稿时长
30 weeks
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