Researchers Zero in on Protein That Destroys HIV



ScienceDaily (Aug. 24, 2010) — Using a $225,000 microscope, researchers have identified the key components of a protein called TRIM5a that destroys HIV in rhesus monkeys.

The finding could lead to new TRIM5a-based treatments that would knock out HIV in humans, said senior researcher Edward M. Campbell, PhD, of Loyola University Health System.
Campbell and colleagues report their findings in an article featured on the cover of the Sept. 15, 2010 issue of the journal Virology, now available online.
In 2004, other researchers reported that TRIM5a protects rhesus monkeys from HIV. The TRIM5a protein first latches on to a HIV virus, then other TRIM5a proteins gang up and destroy the virus.
Humans also have TRIM5a, but while the human version of TRIM5a protects against some viruses, it does not protect against HIV.
Researchers hope to turn TRIM5a into an effective therapeutic agent. But first they need to identify the components in TRIM5a that enable the protein to destroy viruses. "Scientists have been trying to develop antiviral therapies for only about 75 years," Campbell said. "Evolution has been playing this game for millions of years, and it has identified a point of intervention that we still know very little about."
TRIM5a consists of nearly 500 amino acid subunits. Loyola researchers have identified six 6 individual amino acids, located in a previously little-studied region of the TRIM5a protein, that are critical in the ability of the protein to inhibit viral infection. When these amino acids were altered in human cells, TRIM5a lost its ability to block HIV-1 infection. (The research was done on cell cultures; no rhesus monkeys were used in the study.)
By continuing to narrow their search, researchers hope to identify an amino acid, or combination of amino acids, that enable TRIM5a to destroy HIV. Once these critical amino acids are identified, it might be possible to genetically engineer TRIM5a to make it more effective in humans. Moreover, a better understanding of the underlying mechanism of action might enable the development of drugs that mimic TRIM5a action, Campbell said.
In their research, scientists used Loyola's wide-field "deconvolution" microscope to observe how the amino acids they identified altered the behavior of TRIM5a. They attached fluorescent proteins to TRIM5a to, in effect, make it glow. In current studies, researchers are fluorescently labeling individual HIV viruses and measuring the microscopic interactions between HIV and TRIM5a.
"The motto of our lab is one of Yogi Berra's sayings -- 'You can see a lot just by looking,'" Campbell said.
Campbell is an assistant professor in the Department of Microbiology and Immunology at Loyola University Chicago Stritch School of Medicine. His co-authors are Jaya Sastri, a Stritch graduate student and first author; Christopher O'Connor, a former post-doctorate researcher at Stritch; Cindy Danielson and Michael McRaven of Northwestrn University Feinberg School of Medicine and Patricio Perez and Felipe Diaz-Griffero of Albert Einstein College of Medicine.
The study was supported by a grant from the National Institutes of Health.

http://www.sciencedaily.com/releases/2010/08/100824121022.htm?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+sciencedaily+%28ScienceDaily% 3A+Latest+Science+News%29



http://aidslibrary.org/gif/atn.gif

destroy HIV with a protein

Yay no more condoms!

If the findings are correct this would be the most incredible discovery to have happened in a VERY long time. Absolutely incredible! :)

i still believe HIV was created, by us humans, and therefore a method to cure this virus has been existing from pretty much that same moment it was created. if and when it will be 'released' is just a matter of tactical timing, but not in the near future, i think

herpes,hepatitis and other antibiotic resistant STD'S


Yay no more condoms!

some body save him ,he's lost and dirty


herpes,hepatitis and other antibiotic resistant STD'S




Yay no more condoms!

a protein that kills hiv hmmmm

a protein that kills hiv hmmmm

Well, proteins are behind most cellular functions, so it's not surprising that they are looking at it.

The beauty of this is ...if it works...it may be a way to eventually combat ALL viral diseases...(maybe even hepatitis, herpes...and who knows - the common cold).

Rubbers ruined sex more than sara palin's retard son

I have never seen her son before and personally could careless about him but i'd nail Palin like ugh nvm.

viruses are not alive,they are DNA/RNA BASICALLY GENETIC MATERIAL



Researchers Zero in on Protein That Destroys HIV



ScienceDaily (Aug. 24, 2010) — Using a $225,000 microscope, researchers have identified the key components of a protein called TRIM5a that destroys HIV in rhesus monkeys.

The finding could lead to new TRIM5a-based treatments that would knock out HIV in humans, said senior researcher Edward M. Campbell, PhD, of Loyola University Health System.
Campbell and colleagues report their findings in an article featured on the cover of the Sept. 15, 2010 issue of the journal Virology, now available online.
In 2004, other researchers reported that TRIM5a protects rhesus monkeys from HIV. The TRIM5a protein first latches on to a HIV virus, then other TRIM5a proteins gang up and destroy the virus.
Humans also have TRIM5a, but while the human version of TRIM5a protects against some viruses, it does not protect against HIV.
Researchers hope to turn TRIM5a into an effective therapeutic agent. But first they need to identify the components in TRIM5a that enable the protein to destroy viruses. "Scientists have been trying to develop antiviral therapies for only about 75 years," Campbell said. "Evolution has been playing this game for millions of years, and it has identified a point of intervention that we still know very little about."
TRIM5a consists of nearly 500 amino acid subunits. Loyola researchers have identified six 6 individual amino acids, located in a previously little-studied region of the TRIM5a protein, that are critical in the ability of the protein to inhibit viral infection. When these amino acids were altered in human cells, TRIM5a lost its ability to block HIV-1 infection. (The research was done on cell cultures; no rhesus monkeys were used in the study.)
By continuing to narrow their search, researchers hope to identify an amino acid, or combination of amino acids, that enable TRIM5a to destroy HIV. Once these critical amino acids are identified, it might be possible to genetically engineer TRIM5a to make it more effective in humans. Moreover, a better understanding of the underlying mechanism of action might enable the development of drugs that mimic TRIM5a action, Campbell said.
In their research, scientists used Loyola's wide-field "deconvolution" microscope to observe how the amino acids they identified altered the behavior of TRIM5a. They attached fluorescent proteins to TRIM5a to, in effect, make it glow. In current studies, researchers are fluorescently labeling individual HIV viruses and measuring the microscopic interactions between HIV and TRIM5a.
"The motto of our lab is one of Yogi Berra's sayings -- 'You can see a lot just by looking,'" Campbell said.
Campbell is an assistant professor in the Department of Microbiology and Immunology at Loyola University Chicago Stritch School of Medicine. His co-authors are Jaya Sastri, a Stritch graduate student and first author; Christopher O'Connor, a former post-doctorate researcher at Stritch; Cindy Danielson and Michael McRaven of Northwestrn University Feinberg School of Medicine and Patricio Perez and Felipe Diaz-Griffero of Albert Einstein College of Medicine.
The study was supported by a grant from the National Institutes of Health.

http://www.sciencedaily.com/releases/2010/08/100824121022.htm?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+sciencedaily+%28ScienceDaily% 3A+Latest+Science+News%29



http://aidslibrary.org/gif/atn.gif


a protein that kills HIV hmmmm

Better a protein to eradicate the virus than a drug. (If it works in human trials)

not necessarily good

The beauty of this is ...if it works...it may be a way to eventually combat ALL viral diseases...(maybe even hepatitis, herpes...and who knows - the common cold).

so we'll have no excuse to take sick days... :(

viruses are not alive,they are DNA/RNA BASICALLY GENETIC MATERIAL

Did you learn this when you were studying medicine, before you moved to Beverly Hills? ;)

Broke prostitute begging for room mates



did you learn this when you were studying medicine, before you moved to beverly hills? ;)

This is abut to get real good.

This is abut to get real good.

Werd :iagree:

Go jerk off on wife's underwear you crossdressing, illiterate, redundant, rubber mask-wearing, cock-gluing, locker-renting, running from the cops, stroll patrolling FAGGOT!

Researchers Zero in on Protein That Destroys HIV



ScienceDaily (Aug. 24, 2010) — Using a $225,000 microscope, researchers have identified the key components of a protein called TRIM5a that destroys HIV in rhesus monkeys.

The finding could lead to new TRIM5a-based treatments that would knock out HIV in humans, said senior researcher Edward M. Campbell, PhD, of Loyola University Health System.
Campbell and colleagues report their findings in an article featured on the cover of the Sept. 15, 2010 issue of the journal Virology, now available online.
In 2004, other researchers reported that TRIM5a protects rhesus monkeys from HIV. The TRIM5a protein first latches on to a HIV virus, then other TRIM5a proteins gang up and destroy the virus.
Humans also have TRIM5a, but while the human version of TRIM5a protects against some viruses, it does not protect against HIV.
Researchers hope to turn TRIM5a into an effective therapeutic agent. But first they need to identify the components in TRIM5a that enable the protein to destroy viruses. "Scientists have been trying to develop antiviral therapies for only about 75 years," Campbell said. "Evolution has been playing this game for millions of years, and it has identified a point of intervention that we still know very little about."
TRIM5a consists of nearly 500 amino acid subunits. Loyola researchers have identified six 6 individual amino acids, located in a previously little-studied region of the TRIM5a protein, that are critical in the ability of the protein to inhibit viral infection. When these amino acids were altered in human cells, TRIM5a lost its ability to block HIV-1 infection. (The research was done on cell cultures; no rhesus monkeys were used in the study.)
By continuing to narrow their search, researchers hope to identify an amino acid, or combination of amino acids, that enable TRIM5a to destroy HIV. Once these critical amino acids are identified, it might be possible to genetically engineer TRIM5a to make it more effective in humans. Moreover, a better understanding of the underlying mechanism of action might enable the development of drugs that mimic TRIM5a action, Campbell said.
In their research, scientists used Loyola's wide-field "deconvolution" microscope to observe how the amino acids they identified altered the behavior of TRIM5a. They attached fluorescent proteins to TRIM5a to, in effect, make it glow. In current studies, researchers are fluorescently labeling individual HIV viruses and measuring the microscopic interactions between HIV and TRIM5a.
"The motto of our lab is one of Yogi Berra's sayings -- 'You can see a lot just by looking,'" Campbell said.
Campbell is an assistant professor in the Department of Microbiology and Immunology at Loyola University Chicago Stritch School of Medicine. His co-authors are Jaya Sastri, a Stritch graduate student and first author; Christopher O'Connor, a former post-doctorate researcher at Stritch; Cindy Danielson and Michael McRaven of Northwestrn University Feinberg School of Medicine and Patricio Perez and Felipe Diaz-Griffero of Albert Einstein College of Medicine.
The study was supported by a grant from the National Institutes of Health.

http://www.sciencedaily.com/releases/2010/08/100824121022.htm?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+sciencedaily+%28ScienceDaily% 3A+Latest+Science+News%29



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