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Visual explanation of Tomcod resistance to PCBs.
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Visual explanation of Tomcod resistance to PCBs.
Visual explanation of Tomcod resistance to PCBs.
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381859
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Cook, John E.
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Visual explanation of Tomcod resistance to PCBs.
Visual explanation of Tomcod resistance to PCBs.
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05/21/2012
File name
PCBs_tomcod.jpg
Notes
Caption from Oceanus magazine, Vol. 49, no. 2, page 10: Tomcod have a protein called AHR2. In tomcod from clean water in Shinnecock Bay, N.Y. (left), AHR2 binds to PCBs, moves into the cell nucleus, and turns on genes that cause toxic effects. Tomcod from the PCB-polluted Hudson River (right) are missing amino acids in their AHR2. The protein binds poorly to PCBs, short-circuiting the process that produces toxic effects. Image of The Day caption: Water pollution often devestates marine life, but can occasionally make some fish tougher. WHOI researchers recentlycompared the way tomcod in Shinnecock Bay and the Hudson River have evolved in response to toxic chemicals, and found that a key protein in those in the Hudson River (right panel) are missing two amino acids that make them less sensitive to toxins, and thus better able to survive pollution. Shinnecock Bay tomcod (left panel) have a normal version of the protein. Biology postdoctoral fellow Larissa Williams studies how fish in New Bedford Harbor have become resistant to toxins. She will discuss her work at this week's Science Made Public presentation today at 2:30 p.m.
Caption from Oceanus magazine, Vol. 49, no. 2, page 10:
Tomcod have a protein called AHR2. In tomcod from clean water in Shinnecock Bay, N.Y. (left), AHR2 binds to PCBs, moves into the cell nucleus, and turns on genes that cause toxic effects. Tomcod from the PCB-polluted Hudson River (right) are missing amino acids in their AHR2. The protein binds poorly to PCBs, short-circuiting the process that produces toxic effects.
Image of The Day caption:
Water pollution often devestates marine life, but can occasionally make some fish tougher. WHOI researchers recentlycompared the way tomcod in Shinnecock Bay and the Hudson River have evolved in response to toxic chemicals, and found that a key protein in those in the Hudson River (right panel) are missing two amino acids that make them less sensitive to toxins, and thus better able to survive pollution. Shinnecock Bay tomcod (left panel) have a normal version of the protein. Biology postdoctoral fellow Larissa Williams studies how fish in New Bedford Harbor have become resistant to toxins. She will discuss her work at this week's Science Made Public presentation today at 2:30 p.m.
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© Woods Hole Oceanographic Institution
©Shane Gross/Greenpeace
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Illustration by Eric S. Taylor, WHOI Creative
Illustration by Jack Cook
Illustration by Jayne Doucette
Illustration by Natalie Renier, WHOI Creative
Marine Imaging Technologies, LLC © Woods Hole Oceanographic Institution
Photo by Amy Apprill
Photo by Craig LaPlante
Photo by Daniel Hentz
Photo by Danielle Fino
Photo by Darlene Trew Crist
Photo by Elise Hugus
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Video by Craig LaPlante
Video by Danielle Fino
Video by Hannah Piecuch
Video by Jayne Doucette
Video by Ken Kostel
Video by Matthew Barton
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Illustration by Jack Cook
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PCBs_tomcod.jpg
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jdoucette: Image of The Day, 07/24/2012 jdoucette: Oceanus magazine, vol. 49, no. 2, page 10.
jdoucette: Image of The Day, 07/24/2012
jdoucette: Oceanus magazine, vol. 49, no. 2, page 10.
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