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Interactions of Phosducin with the Subunits of G-Proteins
The high affinity interactions of phosducin with G-proteins involve binding of phosducin to the G-protein βγ subunits. Here we have investigated whether phosducin interacts also with G-protein α subunits. Interactions of phosducin with the individual subunits of G o were measured by retaining pho...
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| Published in: | The Journal of biological chemistry 1998-04, Vol.273 (16), p.9465-9471 |
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| container_end_page | 9471 |
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| container_title | The Journal of biological chemistry |
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| creator | Bauer, Petra H. Blüml, Klaus Schröder, Stefan Hegler, Jutta Dees, Christian Lohse, Martin J. |
| description | The high affinity interactions of phosducin with G-proteins involve binding of phosducin to the G-protein βγ subunits. Here
we have investigated whether phosducin interacts also with G-protein α subunits. Interactions of phosducin with the individual
subunits of G o were measured by retaining phosducin-G-protein subunit complexes on columns containing immobilized anti-phosducin antibodies.
Both the α and the β subunits of trimeric G o were specifically retained by the antibodies in the presence of phosducin. This binding was almost completely abolished for
both subunits following protein kinase A-mediated phosphorylation of phosducin and was reduced, more for α than for β subunits,
by the stable GTP analog guanosine 5â²-(3- O -thio)triphosphate. Isolated α o was also retained on the columns in the presence of phosducin but not in the presence of protein kinase A-phosphorylated
phosducin. Likewise, purified G-protein βγ subunit complexes as well as purified α subunits of G o and G t were precipitated together with His 6 -tagged phosducin with nickel-agarose; this co-precipitation occurred concentration-dependently, with apparent affinities
for phosducin of 55 n m (G βγ ), 110 n m (α o ), and 200 n m (α t ). In functional experiments, the steady state GTPase activity of isolated α o was inhibited by phosducin by â60% with an IC 50 value of â300 n m , whereas the GTPase activity of trimeric G o was inhibited by â90% with an IC 50 value of â10 n m . Phosducin did not inhibit the GTP-hydrolytic activity of isolated α o as measured by single-turnover assays, but it inhibited the release of GDP from α o ; the rate constant of GDP release was decreased â40% by 500 n m phosducin, and the inhibition occurred with an IC 50 value for phosducin of â100 n m . These data suggest that phosducin binds with high affinity to G-protein βγ subunits and with lower affinity to G-protein
α subunits. We propose that the α subunit-mediated effects of phosducin might increase both the extent and the rapidity of
its inhibitory effects compared with an action via the βγ subunit complex alone. |
| doi_str_mv | 10.1074/jbc.273.16.9465 |
| format | article |
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we have investigated whether phosducin interacts also with G-protein α subunits. Interactions of phosducin with the individual
subunits of G o were measured by retaining phosducin-G-protein subunit complexes on columns containing immobilized anti-phosducin antibodies.
Both the α and the β subunits of trimeric G o were specifically retained by the antibodies in the presence of phosducin. This binding was almost completely abolished for
both subunits following protein kinase A-mediated phosphorylation of phosducin and was reduced, more for α than for β subunits,
by the stable GTP analog guanosine 5â²-(3- O -thio)triphosphate. Isolated α o was also retained on the columns in the presence of phosducin but not in the presence of protein kinase A-phosphorylated
phosducin. Likewise, purified G-protein βγ subunit complexes as well as purified α subunits of G o and G t were precipitated together with His 6 -tagged phosducin with nickel-agarose; this co-precipitation occurred concentration-dependently, with apparent affinities
for phosducin of 55 n m (G βγ ), 110 n m (α o ), and 200 n m (α t ). In functional experiments, the steady state GTPase activity of isolated α o was inhibited by phosducin by â60% with an IC 50 value of â300 n m , whereas the GTPase activity of trimeric G o was inhibited by â90% with an IC 50 value of â10 n m . Phosducin did not inhibit the GTP-hydrolytic activity of isolated α o as measured by single-turnover assays, but it inhibited the release of GDP from α o ; the rate constant of GDP release was decreased â40% by 500 n m phosducin, and the inhibition occurred with an IC 50 value for phosducin of â100 n m . These data suggest that phosducin binds with high affinity to G-protein βγ subunits and with lower affinity to G-protein
α subunits. We propose that the α subunit-mediated effects of phosducin might increase both the extent and the rapidity of
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we have investigated whether phosducin interacts also with G-protein α subunits. Interactions of phosducin with the individual
subunits of G o were measured by retaining phosducin-G-protein subunit complexes on columns containing immobilized anti-phosducin antibodies.
Both the α and the β subunits of trimeric G o were specifically retained by the antibodies in the presence of phosducin. This binding was almost completely abolished for
both subunits following protein kinase A-mediated phosphorylation of phosducin and was reduced, more for α than for β subunits,
by the stable GTP analog guanosine 5â²-(3- O -thio)triphosphate. Isolated α o was also retained on the columns in the presence of phosducin but not in the presence of protein kinase A-phosphorylated
phosducin. Likewise, purified G-protein βγ subunit complexes as well as purified α subunits of G o and G t were precipitated together with His 6 -tagged phosducin with nickel-agarose; this co-precipitation occurred concentration-dependently, with apparent affinities
for phosducin of 55 n m (G βγ ), 110 n m (α o ), and 200 n m (α t ). In functional experiments, the steady state GTPase activity of isolated α o was inhibited by phosducin by â60% with an IC 50 value of â300 n m , whereas the GTPase activity of trimeric G o was inhibited by â90% with an IC 50 value of â10 n m . Phosducin did not inhibit the GTP-hydrolytic activity of isolated α o as measured by single-turnover assays, but it inhibited the release of GDP from α o ; the rate constant of GDP release was decreased â40% by 500 n m phosducin, and the inhibition occurred with an IC 50 value for phosducin of â100 n m . These data suggest that phosducin binds with high affinity to G-protein βγ subunits and with lower affinity to G-protein
α subunits. We propose that the α subunit-mediated effects of phosducin might increase both the extent and the rapidity of
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we have investigated whether phosducin interacts also with G-protein α subunits. Interactions of phosducin with the individual
subunits of G o were measured by retaining phosducin-G-protein subunit complexes on columns containing immobilized anti-phosducin antibodies.
Both the α and the β subunits of trimeric G o were specifically retained by the antibodies in the presence of phosducin. This binding was almost completely abolished for
both subunits following protein kinase A-mediated phosphorylation of phosducin and was reduced, more for α than for β subunits,
by the stable GTP analog guanosine 5â²-(3- O -thio)triphosphate. Isolated α o was also retained on the columns in the presence of phosducin but not in the presence of protein kinase A-phosphorylated
phosducin. Likewise, purified G-protein βγ subunit complexes as well as purified α subunits of G o and G t were precipitated together with His 6 -tagged phosducin with nickel-agarose; this co-precipitation occurred concentration-dependently, with apparent affinities
for phosducin of 55 n m (G βγ ), 110 n m (α o ), and 200 n m (α t ). In functional experiments, the steady state GTPase activity of isolated α o was inhibited by phosducin by â60% with an IC 50 value of â300 n m , whereas the GTPase activity of trimeric G o was inhibited by â90% with an IC 50 value of â10 n m . Phosducin did not inhibit the GTP-hydrolytic activity of isolated α o as measured by single-turnover assays, but it inhibited the release of GDP from α o ; the rate constant of GDP release was decreased â40% by 500 n m phosducin, and the inhibition occurred with an IC 50 value for phosducin of â100 n m . These data suggest that phosducin binds with high affinity to G-protein βγ subunits and with lower affinity to G-protein
α subunits. We propose that the α subunit-mediated effects of phosducin might increase both the extent and the rapidity of
its inhibitory effects compared with an action via the βγ subunit complex alone.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>9545273</pmid><doi>10.1074/jbc.273.16.9465</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record> |
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| title | Interactions of Phosducin with the Subunits of G-Proteins |
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