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Membrane proteins stick around

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You wouldn't call it a long-term relationship, but the interaction between proteins and certain membrane lipids is not just a one-millisecond stand... As Hammond et al. discovered, the proteins remain attached to the lipids longer than researchers expected... The findings explain how these lipids localize their effects... By temporarily hooking up with various proteins, inositol lipids in the plasma membrane help cells do everything from transmit signals to move... As the inositols wander around the cell membrane, the proteins need to hang on long enough to encounter other proteins and thereby transmit the inositol signal... But if the proteins cling on too long, they risk spreading their effects beyond the target area... Using photobleaching, Hammond et al. estimated how fast protein–lipid couples moved within the membrane and how long they remained together... Riding the inositol molecules, the proteins traveled at a brisk pace of around 1 μm per second, about the same speed as other researchers had measured for the lipids alone... To the team's surprise, the proteins could stick to the inositols for several seconds... As a result, a protein–inositol duo has time to search its neighborhood for potential interaction partners, but it can spread its influence over a few microns at the most... The researchers are now working to determine how interactions with other proteins affect the mobility of the pairs.

No MeSH data available.


Hitched to lipids, glowing proteins advance into a bleached area of the cell membrane.
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fig1: Hitched to lipids, glowing proteins advance into a bleached area of the cell membrane.


Membrane proteins stick around
Hitched to lipids, glowing proteins advance into a bleached area of the cell membrane.
© Copyright Policy
Related In: Results  -  Collection

Show All Figures
getmorefigures.php?uid=PMC2654290&req=5

fig1: Hitched to lipids, glowing proteins advance into a bleached area of the cell membrane.

View Article: PubMed Central

AUTOMATICALLY GENERATED EXCERPT
Please rate it.

You wouldn't call it a long-term relationship, but the interaction between proteins and certain membrane lipids is not just a one-millisecond stand... As Hammond et al. discovered, the proteins remain attached to the lipids longer than researchers expected... The findings explain how these lipids localize their effects... By temporarily hooking up with various proteins, inositol lipids in the plasma membrane help cells do everything from transmit signals to move... As the inositols wander around the cell membrane, the proteins need to hang on long enough to encounter other proteins and thereby transmit the inositol signal... But if the proteins cling on too long, they risk spreading their effects beyond the target area... Using photobleaching, Hammond et al. estimated how fast protein–lipid couples moved within the membrane and how long they remained together... Riding the inositol molecules, the proteins traveled at a brisk pace of around 1 μm per second, about the same speed as other researchers had measured for the lipids alone... To the team's surprise, the proteins could stick to the inositols for several seconds... As a result, a protein–inositol duo has time to search its neighborhood for potential interaction partners, but it can spread its influence over a few microns at the most... The researchers are now working to determine how interactions with other proteins affect the mobility of the pairs.

No MeSH data available.