Abstract
The purpose of the present study is to ascertain {sup 147}Pm retention in testis and its radiogenotoxicological effects of gene mutation through varying radioactivities of internal exposure. Especially the accumulation of {sup 147}Pm in testis induces the dominant lethal, dominant skeletal mutation and abnormalities in sperm. Studies indicated that the cumulative absorption dose in testis increases as the internal exposure of {sup 147}Pm increases. The internal exposure of {sup 147}Pm can destroy the genetic materials and raise the rates of dominant lethal and dominant mutation of skeletal abnormalities in the offspring. The relationship between the rate of dominant skeletal mutation (B) and accumulated radioactivities of {sup 147}Pm (D) in testis can be described by a linear equation that is B 20.68 + 35.48 D. The relationship between abnormalities of the sperm and the cumulative dose from {sup 147}Pm in testis can be expressed by the following equation: S = 10.8705 D{sup 0.5224} + 3.1768.
Citation Formats
Shoupeng, Zhu, Mingyue, Lun, and Shuqin, Yang.
Study on the abnormalities in sperm and gene mutation induced by retention of {sup 147}Pm in testis.
China: N. p.,
1990.
Web.
Shoupeng, Zhu, Mingyue, Lun, & Shuqin, Yang.
Study on the abnormalities in sperm and gene mutation induced by retention of {sup 147}Pm in testis.
China.
Shoupeng, Zhu, Mingyue, Lun, and Shuqin, Yang.
1990.
"Study on the abnormalities in sperm and gene mutation induced by retention of {sup 147}Pm in testis."
China.
@misc{etde_10111380,
title = {Study on the abnormalities in sperm and gene mutation induced by retention of {sup 147}Pm in testis}
author = {Shoupeng, Zhu, Mingyue, Lun, and Shuqin, Yang}
abstractNote = {The purpose of the present study is to ascertain {sup 147}Pm retention in testis and its radiogenotoxicological effects of gene mutation through varying radioactivities of internal exposure. Especially the accumulation of {sup 147}Pm in testis induces the dominant lethal, dominant skeletal mutation and abnormalities in sperm. Studies indicated that the cumulative absorption dose in testis increases as the internal exposure of {sup 147}Pm increases. The internal exposure of {sup 147}Pm can destroy the genetic materials and raise the rates of dominant lethal and dominant mutation of skeletal abnormalities in the offspring. The relationship between the rate of dominant skeletal mutation (B) and accumulated radioactivities of {sup 147}Pm (D) in testis can be described by a linear equation that is B 20.68 + 35.48 D. The relationship between abnormalities of the sperm and the cumulative dose from {sup 147}Pm in testis can be expressed by the following equation: S = 10.8705 D{sup 0.5224} + 3.1768.}
place = {China}
year = {1990}
month = {May}
}
title = {Study on the abnormalities in sperm and gene mutation induced by retention of {sup 147}Pm in testis}
author = {Shoupeng, Zhu, Mingyue, Lun, and Shuqin, Yang}
abstractNote = {The purpose of the present study is to ascertain {sup 147}Pm retention in testis and its radiogenotoxicological effects of gene mutation through varying radioactivities of internal exposure. Especially the accumulation of {sup 147}Pm in testis induces the dominant lethal, dominant skeletal mutation and abnormalities in sperm. Studies indicated that the cumulative absorption dose in testis increases as the internal exposure of {sup 147}Pm increases. The internal exposure of {sup 147}Pm can destroy the genetic materials and raise the rates of dominant lethal and dominant mutation of skeletal abnormalities in the offspring. The relationship between the rate of dominant skeletal mutation (B) and accumulated radioactivities of {sup 147}Pm (D) in testis can be described by a linear equation that is B 20.68 + 35.48 D. The relationship between abnormalities of the sperm and the cumulative dose from {sup 147}Pm in testis can be expressed by the following equation: S = 10.8705 D{sup 0.5224} + 3.1768.}
place = {China}
year = {1990}
month = {May}
}