Skip to content
Skip to main navigation
Skip to first column
Skip to second column
About SBS
News
Research News
Calendar
Directory
Associated Facilities
Organized Research Units
The Turtle Pond
Academics
Course Descriptions / Syllabi
Undergraduate Programs
Advising Center (BSAC)
Graduate Programs
Ecology, Evolution and Behavior
Microbiology
Plant Biology
Health Information Technologies
Student Views
Student Organizations
Alumni & Friends
Welcome
inVivo School Newsletter
Endowments
How to Give
Sections
Integrative Biology
Molecular Cell and Developmental Biology
Molecular Genetics and Microbiology
Neurobiology
SBS Directory
Faculty Profiles
Faculty & Staff Tools
Directory Update
CV Report
Biographical Sketch
TA Matching System
Academic Assignment
SBSPO
Room Reservations
New Employee Checklist
Grant Application Support
Online Store
Support Services
Text Book Order Forms
Contact Us
SBS Resources
Undergraduate Programs
Graduate Programs
Calendar
Directory
Maps
Online Store
Support Services
Contacts
UT resources
Job Resource Center
UT Direct
UT Directory
UT Calendars
Follow SBS
Home
»
Directory
» Details
Directory
Faculty
Paul Macdonald
Mr. and Mrs. Robert P. Doherty, Jr. Regents Chair In Molecular Biology
Email:
pmacdonald@mail.utexas.edu
Website
Main Office:
MBB 2.422A
Phone:
232-6292
Alternate Office:
MBB 2.422
Alt. Phone:
232-6294
Mailing Address
The University of Texas at Austin - ICMB
1 University Station A4800
2500 Speedway
Austin ,TX 78712-0159
Research Summary
Regulation of gene expression at the post-transcriptional level has long been recognized for its essential role in early development, and has more recently emerged as a widespread phenomenon affecting the majority of mRNAs. We study several forms of control in a setting - Drosophila oogenesis - where this regulation is extensive and crucial for the patterning processes that define the body plan of the embryo. A combination of mRNA localization, translational regulation, and protein anchoring act to deploy several molecules at specific positions within the egg, where they act as localized determinants of cell fate. Our work on mRNA localization included the initial discovery of mRNA localization signals, and the identification of the factors that recognize the signals. The main focus of the lab now is on translational regulation of the localized mRNAs, using the
oskar
mRNA as a model. The
oskar
mRNA must be translationally repressed prior to its localization at the posterior pole of the oocyte, and then selectively activated at that site. We have identified
cis
-acting elements and
trans
-acting factors involved in repression and activation. Using a combination of genetics, biochemistry, and cell and molecular biological approaches we are trying to explain the mechanisms of repression and activation, and how they are coordinated with mRNA localization. A surprising outcome of our work has been the discovery that translational control can be exerted in
trans
: the control elements on one molecule of
oskar
mRNA can influence the translation of other molecules of
oskar
mRNA. This property is likely to be dependent on assembly of
oskar
transcripts in large particles, with intermolecular interactions within the particles allowing the regulation in
trans
. Understanding
trans
regulation is another goal of the lab.
Quick Links
About SBS
News
Research News
Calendar
Directory
Associated Facilities
Organized Research Units
The Turtle Pond
