Dr. Amanda Leigh Perry, DNP, FNP-C Nurse Practitioner - Family Medicare: Not Enrolled in Medicare Practice Location: 665 112th Ave Ne, Cooperstown, ND 58425 Phone: 601-870-0774 Fax: 701-797-3328 |
Debra L. Middleton, FNP Nurse Practitioner - Family Medicare: Accepting Medicare Assignments Practice Location: 1200 Roberts Ave Ne, Cooperstown, ND 58425 Phone: 701-797-2221 Fax: 701-797-2457 |
Kevin S Jacobson, NP Nurse Practitioner Medicare: Accepting Medicare Assignments Practice Location: 1200 Roberts Ave Ne, Cooperstown Medical Center, Cooperstown, ND 58425 Phone: 701-797-2128 |
Daniel Hagerty, NP Nurse Practitioner Medicare: Medicare Enrolled Practice Location: 813 Burrel Ave Nw, Cooperstown, ND 58425 Phone: 541-373-7465 |
Mr. Norman Leo Berthiaume, FNP-C Nurse Practitioner - Family Medicare: Accepting Medicare Assignments Practice Location: 1200 Roberts Ave Ne, Cooperstown, ND 58425 Phone: 701-797-2221 Fax: 701-797-2457 |
Kathleen Marjorie Rogan, FNP-C Nurse Practitioner - Family Medicare: Medicare Enrolled Practice Location: 1200 Roberts Ave Ne, Cooperstown, ND 58425 Phone: 701-786-1700 |
News Archive
Knocking out one or both crucial regulatory genes caused cleft lip, skin barrier defects, and a host of other developmental problems in mice, according to new research from the Perelman School of Medicine at the University of Pennsylvania, hinting that abnormalities in these molecular pathways could underlie many birth defects that are presently not well understood. The two closely related regulatory genes are active in the normal development of mammals and govern how RNAs produced from the genes are joined to make final versions of the encoded protein, a process called alternative splicing.
Scientists from The Institute of Advanced Studies at Princeton and the University of California discovered that the underlying process in tumor formation is the same as for life itself-evolution.
A global shortage of the most commonly used radioisotope in medical diagnostic procedures, Technetium-99 (99mTc), will have a major impact on hospitals around the world within the next year.
Many drugs are based on natural substances. Because it is usually difficult, if not impossible, to isolate these in sufficient quantities from plants or microorganisms, they must be synthesized in the laboratory. This requires linking carbon atoms – with the right spatial orientation (stereochemistry) relative to each other. In the journal Angewandte Chemie, E. Peter Kündig and a team from the University of Geneva (Switzerland) have now introduced a palladium-catalyzed synthesis that allows them to produce indoline derivatives with the correct spatial arrangement.
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