Skip Navigation ANU Home | Search ANU
The Australian National University
Marketing & Communications
Marketing & Comm.
Search Marketing & Comm.
About MAC
Advertising
Alumni
Art Collection
Contact Us
CPAS
Donations & Bequests
Drill Hall Gallery
Events
FAQs
Marketing Resources
Media
Merchandise
Newsletters & Journals
ANU Reporter
about
2008
2007
2006
2005
2004
2003
Pre-2003
Advertising
Autumn 2004
Spring 2004
Winter 2004
Bioterror hope
Buried treasure
Composer joins ANU
E Press
Federation Fellowships
Junk chromosome
Last Word
Mars
Shark bytes
Teleportation
University House
Vice-Chancellor
Week-long song
On Campus
Publications
VIP Visits & Protocol
Shortcuts
ANU Reporter
Corporate Style Guide
On Campus
Quick Links
Policies, Procedures
& Forms
ANU Billboard
Staff Pages
Printer Friendly Version of this Document

Males succumbing to junk chromosome

A new version of the human male is a distinct possibility, given the genetic erosion of the ‘junk’ sex-determining chromosome that makes men male.

The Y-chromosome, which carries an essential gene known as SRY that induces embryonic testis development (and thus the release of male hormones), is self-destructing, shedding 97 per cent of its other genes in the 300 million years since it evolved.  

GravesThe Y-chromosome is running out of time, according to geneticist Professor Jenny Graves (right), the Head of the Comparative Genomics Group in the ANU Research School of Biological Sciences.

“The Y-chromosome has lost 1,393 of the 1,438 genes it began with 300 million years ago. At this rate it would lose the last 45 in just 10 million years,” Professor Graves said at a lecture in May.

“It has saved itself from extinction only by adding bits from another chromosome. Most genes on the human Y have partners on the X from which they evolved.

“Even the sex-determining gene SRY has a partner on the X, the brain-expressed SOX3, from which it derived. This leads to many questions about how a brain-determining gene could take on a new role as a testis-determining gene.”

Although it may seem the decline of the Y-chromosome and the essential SRY gene would lead to the end of the human race, Professor Graves said nature has proved this is not necessarily the case.

“SRY has been lost in at least two groups of rodents. The mole voles of eastern Europe and the country rats of Japan have no Y-chromosome, and no SRY.

“Somewhere else in their genome, a new sex determining gene must have taken over the function of SRY. Which gene or genes took over this task, and how they work, are questions we will be investigating in future.”

Professor Graves predicts that as the human Y-chromosome deteriorates, one or more sex-determining genes will develop, possibly within different human populations.

“What would happen if different new sex determining genes arose in different human populations? Could mole vole man breed with country rat woman? Probably not, so the two populations would ultimately become different hominid species.”

MORE:
www.rsbs.anu.edu.au/ResearchGroups/CGG

Contents
Page last updated: 29 September 2004
Please direct all enquiries to: MAC Web Content Manager
Page authorised by: the Director, Marketing & Communications
The Australian National University
CRICOS Provider Number 00120C - ABN Number: 522 34063906