DIFFERENTIAL MALE GENETIC SUCCESS DETERMINES GENE FLOW IN AN EXPERIMENTALLY MANIPULATED MOUSE-POPULATION

Catherine Sue Jones; Leslie Robert Noble; J S  JONES; H  TEGELSTROM; G S  TRIGGS; R J  BERRY

DIFFERENTIAL MALE GENETIC SUCCESS DETERMINES GENE FLOW IN AN EXPERIMENTALLY MANIPULATED MOUSE-POPULATION

Catherine Sue Jones, Leslie Robert Noble, J S JONES, H TEGELSTROM, G S TRIGGS, R J BERRY

Aberdeen Centre For Environmental Sustainability

Research output: Contribution to journal › Article › peer-review

27 Citations (Scopus)

Abstract

Sexual selection arises when genetically different males show heritable differences in reproductive success. Mouse mating behaviour involves both male competition and female choice. In this paper we show that introduced Y-linked DNA markers spread more extensively through a natural population than do genes inherited matrilineally. Differences in mating success between the sexes and among individual males may alter the pattern and rate of gene flow in natural populations. Another interesting possibility is that the success of the introduced Y chromosome may be attributable to so-called 'selfish' traits, such as sex-linked meiotic drive or intra-uterine competition. However, this study provides little unequivocal evidence to support this view. Differential success of introduced versus resident males may have implications for the reintroduction of endangered mammals into residual wild populations.

Original language	English
Pages (from-to)	251-256
Number of pages	6
Journal	Proceedings of the Royal Society of London. B, Biological Sciences
Volume	260
Issue number	1359
Publication status	Published - 22 Jun 1995

Keywords

RETICULATA-PETERS PISCES
MITOCHONDRIAL-DNA
HOUSE MICE
NATURAL-POPULATIONS
REPRODUCTIVE SUCCESS
ISLAND POPULATION
MONGOLIAN GERBILS
SEX DETERMINATION
MUS-DOMESTICUS
FEMALE CHOICE

Cite this

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title = "DIFFERENTIAL MALE GENETIC SUCCESS DETERMINES GENE FLOW IN AN EXPERIMENTALLY MANIPULATED MOUSE-POPULATION",

abstract = "Sexual selection arises when genetically different males show heritable differences in reproductive success. Mouse mating behaviour involves both male competition and female choice. In this paper we show that introduced Y-linked DNA markers spread more extensively through a natural population than do genes inherited matrilineally. Differences in mating success between the sexes and among individual males may alter the pattern and rate of gene flow in natural populations. Another interesting possibility is that the success of the introduced Y chromosome may be attributable to so-called 'selfish' traits, such as sex-linked meiotic drive or intra-uterine competition. However, this study provides little unequivocal evidence to support this view. Differential success of introduced versus resident males may have implications for the reintroduction of endangered mammals into residual wild populations.",

keywords = "RETICULATA-PETERS PISCES, MITOCHONDRIAL-DNA, HOUSE MICE, NATURAL-POPULATIONS, REPRODUCTIVE SUCCESS, ISLAND POPULATION, MONGOLIAN GERBILS, SEX DETERMINATION, MUS-DOMESTICUS, FEMALE CHOICE",

author = "Jones, {Catherine Sue} and Noble, {Leslie Robert} and JONES, {J S} and H TEGELSTROM and TRIGGS, {G S} and BERRY, {R J}",

year = "1995",

month = jun,

day = "22",

language = "English",

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pages = "251--256",

journal = "Proceedings of the Royal Society of London. B, Biological Sciences",

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T1 - DIFFERENTIAL MALE GENETIC SUCCESS DETERMINES GENE FLOW IN AN EXPERIMENTALLY MANIPULATED MOUSE-POPULATION

AU - Jones, Catherine Sue

AU - Noble, Leslie Robert

AU - JONES, J S

AU - TEGELSTROM, H

AU - TRIGGS, G S

AU - BERRY, R J

PY - 1995/6/22

Y1 - 1995/6/22

N2 - Sexual selection arises when genetically different males show heritable differences in reproductive success. Mouse mating behaviour involves both male competition and female choice. In this paper we show that introduced Y-linked DNA markers spread more extensively through a natural population than do genes inherited matrilineally. Differences in mating success between the sexes and among individual males may alter the pattern and rate of gene flow in natural populations. Another interesting possibility is that the success of the introduced Y chromosome may be attributable to so-called 'selfish' traits, such as sex-linked meiotic drive or intra-uterine competition. However, this study provides little unequivocal evidence to support this view. Differential success of introduced versus resident males may have implications for the reintroduction of endangered mammals into residual wild populations.

AB - Sexual selection arises when genetically different males show heritable differences in reproductive success. Mouse mating behaviour involves both male competition and female choice. In this paper we show that introduced Y-linked DNA markers spread more extensively through a natural population than do genes inherited matrilineally. Differences in mating success between the sexes and among individual males may alter the pattern and rate of gene flow in natural populations. Another interesting possibility is that the success of the introduced Y chromosome may be attributable to so-called 'selfish' traits, such as sex-linked meiotic drive or intra-uterine competition. However, this study provides little unequivocal evidence to support this view. Differential success of introduced versus resident males may have implications for the reintroduction of endangered mammals into residual wild populations.

KW - RETICULATA-PETERS PISCES

KW - MITOCHONDRIAL-DNA

KW - HOUSE MICE

KW - NATURAL-POPULATIONS

KW - REPRODUCTIVE SUCCESS

KW - ISLAND POPULATION

KW - MONGOLIAN GERBILS

KW - SEX DETERMINATION

KW - MUS-DOMESTICUS

KW - FEMALE CHOICE

M3 - Article

SN - 0962-8452

VL - 260

SP - 251

EP - 256

JO - Proceedings of the Royal Society of London. B, Biological Sciences

JF - Proceedings of the Royal Society of London. B, Biological Sciences

IS - 1359

ER -

DIFFERENTIAL MALE GENETIC SUCCESS DETERMINES GENE FLOW IN AN EXPERIMENTALLY MANIPULATED MOUSE-POPULATION

Abstract

Keywords

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