Grant W F
Environ Health Perspect. 1978 Dec;27:37-43. doi: 10.1289/ehp.782737.
The potential of higher plants as a first-tier assay system for detecting chemical mutagens is evaluated. The use of plant tissue (primarily root tips and pollen mother cells) for studying the induction of chromosomal aberrations is one of the oldest, simplest, most reliable, and inexpensive methods available. Specific types of abnormalities have been induced by different classes of pesticides. Chromosome clumping, contraction, stickiness, paling, fragmentation, dissolution, chromosome and chromatid bridges, C-mitosis, and endoploidy have been reported in the literature. Examples of cytogenetic studies with pesticides demonstrating the usefulness of higher plants as a monitoring system are reviewed. Pesticides which cause chromosome aberrations in plant cells also produce chromosome aberrations in cultured animal cells. Frequently, the aberrations are identical. For example, studies have shown that compounds which have a C-mitotic effect on plant cells have the same effect on animal cells. It is recommended that plant systems be accepted as a first-tier assay system for the detection of possible genetic damage by environmental chemicals.
评估了高等植物作为检测化学诱变剂的一级检测系统的潜力。利用植物组织(主要是根尖和花粉母细胞)研究染色体畸变的诱导是最古老、最简单、最可靠且最经济的可用方法之一。不同种类的农药已诱导出特定类型的异常。文献中报道了染色体凝聚、收缩、粘连、变淡、断裂、溶解、染色体和染色单体桥、C有丝分裂以及核内多倍体。综述了用农药进行的细胞遗传学研究实例,这些研究证明了高等植物作为监测系统的实用性。在植物细胞中引起染色体畸变的农药在培养的动物细胞中也会产生染色体畸变。通常,畸变是相同的。例如,研究表明,对植物细胞有C有丝分裂效应的化合物对动物细胞也有相同的效应。建议将植物系统作为检测环境化学物质可能造成的遗传损伤的一级检测系统。