玉米粗线体6号染色体的透射电镜研究。

D L Shen, M Wu
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引用次数: 6

摘要

从温和固定的玉米小孢子细胞制备的减数分裂染色体扩增中经常获得无细胞质染色体。这些染色体适合使用已发表的电子显微镜技术进行详细的结构分析。在电子显微镜下,光镜下用于核型分析的旋钮和异染色质区域清晰可见。因此,电子显微镜图谱可以很容易地与传统的细胞学图谱对齐。除了这些突出的结构特征外,还观察到许多电子密带。为了确定条带是否可以作为各染色体亚区鉴定的标记,对6号染色体的条带模式进行了分析。6号染色体通常与核仁相关,很容易识别。我们观察到,在I前期的合子蛋白阶段,在突触染色体的每一个同源物上都检测到电子密集区。在突触过程中,两个同源物上的电子密集区域被带入寄存器,形成更明显的带。在粗线期早期,条带模式是稳定的和可复制的。6号染色体包含8条暗带、19条中带和14条亮带。这些条带可以用作染色体内标记,用于详细的原位杂交作图或细胞遗传学研究中基因的区域分配。随着粗线期的进展,染色体二价体的凝聚伴随着相邻条带的融合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transmission electron microscopic study of maize pachytene chromosome 6.

Cytoplasm-free chromosomes are frequently obtained in meiotic chromosome spreads prepared from mildly-fixed maize microsporocytes. These chromosomes are suitable for detailed structural analysis using a published electron microscopic technique. In the electron micrograph, the knobs and heterochromatin regions that have been used for karyotype analyses in the light microscope are clearly visible. Therefore, the electron microscopic map can be easily aligned with the traditional cytological map. In addition to these prominent structural features, numerous electron-dense bands also are observed. To determine whether the bands can be used as markers for the identification of each chromosomal subregion, the banding pattern of chromosome 6 is analyzed. Chromosome 6 is frequently associated with the nucleolus and can be easily recognized. We observed that at the zygotene stage in prophase I, electron-dense regions are detected on each homolog of the synapsing chromosome. During synapsis, the electron-dense regions on both homologs are brought into register to form more conspicuous bands. At the early pachytene stage, the banding pattern is stable and reproducible. Chromosome 6 contains eight dark bands, 19 medium bands and 14 light bands. The bands can be used as intrachromosomal markers for regional assignment of genes in detailed in situ hybridization mapping or cytogenetic studies. As the pachytene stage progresses, condensation of the chromosome bivalents is accompanied by fusion of adjacent bands.

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