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GOP Senators Signal They Will Not Block Sotomayor; Full Senate Vote Expected By Aug. 7
Senate Republicans on Thursday said that they do not plan to block a vote on Supreme Court nominee Sonia Sotomayor, the Washington Post reports. Senate Judiciary Committee ranking member Jeff Sessions (R-Ala.) told Sotomayor that he would not support any effort to filibuster her nomination, meaning that she would need a simple majority of 50 votes to be confirmed. Because Democrats hold 60 votes in the Senate, Sessions" comments effectively end "any possible suspense over her fate," according to the Post (Kane et al., Washington Post, 7/17). Sessions said, "I will not support and I don"t think any member of this side will support a filibuster or any attempt to block a vote on your nomination," adding, "I look forward to you getting that vote before we recess in August." According to CQ Politics, Sessions" statement that Republicans will not filibuster "is bound to rile conservative activists," who have urged GOP senators to delay the vote to allow more time to build opposition.Sen. Lindsey Graham (R-S.C.) also signaled that he would vote for Sotomayor"s confirmation (Perine, CQ Politics, 7/16). He said, "We"ll see what your future holds, but I think it"s going to be pretty bright" (Bendavid, "Washington Wire," Wall Street Journal, 7/16). Sen. James Inhofe (R-Okla.) said that although he will not support Sotomayor"s confirmation, he will not filibuster the vote (Rushing, The Hill, 7/16). Sen. Tom Coburn (R-Okla.) told Sotomayor, "Thank you for giving us such a cordial response, and I am mightily impressed" (Washington Post, 7/17).Voting Timeline UnclearSenate Judiciary Committee Chair Patrick Leahy (D-Vt.) said he would schedule a committee vote on the nomination for July 21. It remains unclear whether committee Republicans will delay the vote until July 28, as they are permitted to do under committee rules. Sessions called the July 21 vote "unrealistic," adding that there "will be a number of questions submitted to the nominee that take some time" (CQ Politics, 7/16). A party-line vote on the nomination does not seem likely, as a number of committee Republicans have praised Sotomayor and signaled that they will vote to confirm her, the AP/Boston Globe reports (Holland, AP/Boston Globe, 7/17). The committee"s vote serves as a recommendation to the full Senate, which likely will hold its final roll-call vote on the nomination by Aug. 7 (Washington Post, 7/17). Senate Majority Leader Harry Reid (D-Nev.) on Thursday said he wants a floor vote on Sotomayor "as quickly as possible" (Brady, Roll Call, 7/16).During the hearing on Thursday, Sotomayor reiterated that she would consider each case individually and declined to state her specific views on abortion rights. In response to Coburn, she said, "Would you want a ... nominee who came in here and said, "I agree with you. This is unconstitutional," before I had a case before me?" She added, "I don"t know that that"s a justice that I can be" (Kiely/Biskupic, USA Today, 7/17). According to the New York Times, "Some observers thought they detected her tipping her hand on abortion rights when she said Supreme Court precedents required abortion restrictions to make exceptions for a woman"s health" (Savage, New York Times, 7/17).
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Senesco Announces H1N1 Influenza Survival Test Results In Mice
Senesco Technologies, Inc. ("Senesco" or the "Company") (NYSE Amex: SNT) reported results of H1N1 mouse influenza survival studies that were conducted in Dr. William Scheld"s lab at the University of Virginia School of Medicine. Mice treated with an siRNA against Senesco"s Factor 5A gene had a 52% survival rate as opposed to a 14% survival rate for mice that received no treatment or a control siRNA.
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Rheumatoid Arthritis Is Worse In Poorer Countries
People in less affluent countries appear to suffer from more severe rheumatoid arthritis (RA) than people in wealthy countries, suggests research published ahead of print in the Annals of the Rheumatic Diseases.
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Structural Biology Scores With Protein Snapshot

In a landmark technical achievement, investigators in the Vanderbilt Center for Structural Biology have used nuclear magnetic resonance (NMR) methods to determine the structure of the largest membrane-spanning protein to date. Although NMR methods are routinely used to "take molecular pictures" of small proteins, large proteins - and particularly those that reside within the cell membrane - have been reluctant to smile for the camera. In the June 26 issue of Science, Charles Sanders, Ph.D., professor of Biochemistry, and colleagues report the NMR structure of the large bacterial protein diacylglycerol kinase (DAGK), a complex of three subunits that each cross the membrane three times (for a total of nine membrane spans). The group"s ability to determine the NMR structure of DAGK suggests that similar methods can now be used to study the structures of other membrane proteins. "We"re taking the methods that we used for diacylglycerol kinase and applying them to high value targets such as G protein-coupled receptors," Sanders said. G protein-coupled receptors - the largest family of cell signaling proteins - are targets for about half of all pharmaceuticals. Sanders is collaborating with other Vanderbilt investigators to tackle G protein-coupled receptor structure using both NMR and a complementary structural approach, X-ray crystallography. DAGK may be a therapeutic target for certain types of bacterial infections. It is a virulence factor in the bacteria Streptococcus mutans, which causes tooth decay. Sanders selected DAGK as a model for studying membrane enzymes when he started his own research lab 17 years ago. DAGK is the smallest known kinase (a protein that adds chemical groups called phosphates onto other molecules), and it is not similar to any other known proteins. The DAGK structure, Sanders said, "confirmed that this is a really strange kinase." The enzyme has a porch-like structure, with a wide opening for its substrate diacylglycerol and the active site at the top of the porch. "The active site looks nothing like any other kinase active site - it"s a unique architecture," Sanders said. The researchers also performed exhaustive mutagenesis studies in which they characterized mutations at each amino acid in DAGK and used the data to map the active site of the enzyme onto the structure. They identified two sets of mutations that resulted in non-functional DAGK. One set altered the active site so that it no longer did its job, and the second set caused the protein to fold incorrectly (misfolding). Sanders said the team was surprised to find that nearly all of the mutations that caused misfolding were in the active site. The expectation, he explained, is that mutations in the active site would cause a loss of function but would not usually affect protein folding, whereas key residues for folding would be located elsewhere in the protein to underpin the scaffold for the active site. "Our study shows that you can"t make that assumption," he said. Sanders cautions that investigators cannot simply predict the impact of a mutation based on it being located in the active site. The finding has implications for personalized medicine, which aims to use the predicted impact of disease-causing mutations to make therapy decisions. "The therapeutic strategy for addressing catastrophic misfolding versus simple loss of function may be very different," Sanders said. Sanders and his team, who got interested in protein folding because of their work with DAGK, are now pursuing structural studies of misfolded membrane proteins that cause diseases including peripheral neuropathy (Charcot-Marie-Tooth Disease), diabetes insipidus and Alzheimer"s disease. "For proteins that misfold because of mutations, we"re using NMR tools to understand exactly what the mutations do to the proteins in terms of structure and stability," Sanders said. "We believe that understanding will lead to predictions about how to intervene and avoid misfolding." Co-authors include Wade Van Horn, Ph.D., Hak-Jun Kim, Ph.D., Charles Ellis, Ph.D., Arina Hadziselimovic, Endah Sulistijo, Ph.D., Murthy Karra, Ph.D., and Changlin Tian, Ph.D., at Vanderbilt and Frank Sç¶nnichsen, Ph.D., at Christian Albrechts University in Kiel, Germany. Sanders said the res and collegial environment of the Department of Biochemistry and the Vanderbilt Center for Structural Biology, which he joined seven years ago, made it possible for his team to complete the DAGK structure. The National Institutes of Health supported the research. Leigh MacMillan Vanderbilt University Medical Center


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