최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Proceedings of the National Academy of Sciences of the United States of America, v.95 no.13, 1998년, pp.7374 - 7378
Furumura, Minao (Laboratory of Cell Biology, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892) , Sakai, Chie (and Department of Pediatrics, Stanford University School of Medicine, Howard Hughes Medical Institute, Stanford, CA 94305) , Potterf, S. Brian (Laboratory of Cell Biology, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892) , Vieira, Wilfred D. (and Department of Pediatrics, Stanford University School of Medicine, Howard Hughes Medical Institute, Stanford, CA 94305) , Barsh, Gregory S. (Laboratory of Cell Biology, National Cancer Institute, National Institutes of Health, Bethesda, MD 20892) , Hearing, Vincent J. (and Department of Pediatrics, Stanford University School of Medicine, Howard Hughes Medical Institute, Stanford, CA 94305)
Molecular and biochemical mechanisms that modulate the production of eumelanin or pheomelanin pigments involve the opposing effects of two intercellular signaling molecules, α-melanocyte stimulating hormone (MSH) and agouti signal protein (ASP). ASP is an antagonist of MSH signaling through th...
PROTA, GIUSEPPE, LAMOREUX, M. LYNN, MULLER, JACQUELINE, KOBAYASHI, TAKESHI, NAPOLITANO, ALESSANDRA, VINCENSI, M. ROSARIA, SAKAI, CHIE, HEARING, VINCENT J.. Comparative Analysis of Melanins and Melanosomes Produced by Various Coat Color Mutants. Pigment cell research, vol.8, no.3, 153-163.
Biochemistry and Physiology of Melanin Ito S 33 1993 S Ito Biochemistry and Physiology of Melanin, ed N Levine (CRC, Boca Raton, FL), pp. 33-60 (1993).
Am J Hum Genet Barsh G S 743 57 1995 G S Barsh Am J Hum Genet 57, 743-747 (1995).
Barsh, Gregory S.. The genetics of pigmentation: from fancy genes to complex traits. Trends in genetics, vol.12, no.8, 299-305.
Bultman, S.J., Michaud, E.J., Woychik, R.P.. Molecular characterization of the mouse agouti locus. Cell, vol.71, no.7, 1195-1204.
Miller, M W, Duhl, D M, Vrieling, H, Cordes, S P, Ollmann, M M, Winkes, B M, Barsh, G S. Cloning of the mouse agouti gene predicts a secreted protein ubiquitously expressed in mice carrying the lethal yellow mutation.. Genes & development, vol.7, no.3, 454-467.
Millar, Sarah E., Miller, Miles W., Stevens, Mary E., Barsh, Gregory S.. Expression and transgenic studies of the mouse agouti gene provide insight into the mechanisms by which mammalian coat color patterns are generated. Development, vol.121, no.10, 3223-3232.
Kobayashi, Takeshi, Vieira, Wilfred D., Potterf, Brian, Sakai, Chie, Imokawa, Genji, Hearing, Vincent J.. Modulation of melanogenic protein expression during the switch from eu-to pheomelanogenesis. Journal of cell science, vol.108, no.6, 2301-2309.
LAMOREUX, M. LYNN, ZHOU, BAO‐KANG, ROSEMBLAT, SUSANA, ORLOW, SETH J.. The Pinkeyed‐Dilution Protein and the Eumelanin/Pheomelanin Switch: In Support of a Unifying Hypothesis. Pigment cell research, vol.8, no.5, 263-270.
Perry, William L., Copeland, Neal G., Jenkins, Nancy A.. The molecular basis for dominant yellow agouti coat color mutations. BioEssays, vol.16, no.10, 705-707.
Siracusa, L.D.. The agouti gene: turned on to yellow. Trends in genetics, vol.10, no.12, 423-428.
Vrieling, H, Duhl, D M, Millar, S E, Miller, K A, Barsh, G S. Differences in dorsal and ventral pigmentation result from regional expression of the mouse agouti gene.. Proceedings of the National Academy of Sciences of the United States of America, vol.91, no.12, 5667-5671.
Lu, Dongsi, Willard, Derril, Patel, Indravadan R., Kadwell, Sue, Overton, Laurie, Kost, Tom, Luther, Michael, Chen, Wenbiao, Woychik, Richard P., Wilkison, William O., Cone, Roger D.. Agouti protein is an antagonist of the melanocyte-stimulating-hormone receptor. Nature, vol.371, no.6500, 799-802.
Blanchard, Steven G., Harris, Cole O., Ittoop, Olivia, Nichols, James S., Parks, Derek J., Truesdale, Anne T., Wilkison, William O.. Agouti Antagonism of Melanocortin Binding and Action in the B16F10 Murine Melanoma Cell Line. Biochemistry, vol.34, no.33, 10406-10411.
Siegrist, W., Willard, D.H., Wilkison, W.O., Eberle, A.N.. Agouti Protein Inhibits Growth of B16 Melanoma Cellsin Vitroby Acting through Melanocortin Receptors. Biochemical and biophysical research communications, vol.218, no.1, 171-175.
Siegrist, Walter, Drozdz, Roma, Cotti, Renato, Willard, Derril H., Wilkison, William O., Eberle, Alex N.. Interactions of α-Melanotropin and Agouti on B16 Melanoma Cells: Evidence for Inverse Agonism of Agouti. Journal of receptor and signal transduction research, vol.17, no.1, 75-98.
Willard, Derril H., Bodnar, Wanda, Harris, Cole, Kiefer, Laura, Nichols, James S., Blanchard, Steven, Hoffman, Christine, Moyer, Mary, Burkhart, William. Agouti structure and function: characterization of a potent .alpha.-melanocyte stimulating hormone receptor antagonist. Biochemistry, vol.34, no.38, 12341-12346.
Zemel, M B, Kim, J H, Woychik, R P, Michaud, E J, Kadwell, S H, Patel, I R, Wilkison, W O. Agouti regulation of intracellular calcium: role in the insulin resistance of viable yellow mice.. Proceedings of the National Academy of Sciences of the United States of America, vol.92, no.11, 4733-4737.
Perry, William L, Nakamura, Takuro, Swing, Deborah A, Secrest, Lisa, Eagleson, Bryn, Hustad, Carolyn M, Copeland, Neal G, Jenkins, Nancy A. Coupled Site-Directed Mutagenesis/Transgenesis Identifies Important Functional Domains of the Mouse Agouti Protein. Genetics, vol.144, no.1, 255-264.
Kim, J. H., Kiefer, L. L., Woychik, R. P., Wilkison, W. O., Truesdale, A., Ittoop, O., Willard, D., Nichols, J., Zemel, M. B.. Agouti regulation of intracellular calcium: role of melanocortin receptors. American journal of physiology, Endocrinology and metabolism, vol.272, no.3, E379-E384.
Kwon, H Y, Bultman, S J, Löffler, C, Chen, W J, Furdon, P J, Powell, J G, Usala, A L, Wilkison, W, Hansmann, I, Woychik, R P. Molecular structure and chromosomal mapping of the human homolog of the agouti gene.. Proceedings of the National Academy of Sciences of the United States of America, vol.91, no.21, 9760-9764.
Wilson, B D, Ollmann, M M, Kang, L, Stoffel, M, Bell, G I, Barsh, G S. Structure and function of ASP, the human homolog of the mouse agouti gene.. Human molecular genetics, vol.4, no.2, 223-230.
Valverde, Paloma, Healy, Eugene, Jackson, Ian, Rees, Jonathan L., Thody, Anthony J.. Variants of the melanocyte-stimulating hormone receptor gene are associated with red hair and fair skin in humans. Nature genetics, vol.11, no.3, 328-330.
Hunt, Gillian, Todd, Carole, Thody, Anthony J.. Unresponsiveness of human epidermal melanocytes to melanocyte-stimulating hormone and its association with red hair. Molecular and cellular endocrinology, vol.116, no.2, 131-136.
Suzuki, Itaru, Tada, Akihiro, Ollmann, Michael M., Barsh, Gregory S., Im, Sungbin, Lynn Lamoreux, M., Hearing, Vincent J., Nordlund, James J., Abdel-Malek, Zalfa A.. Agouti Signaling Protein Inhibits Melanogenesis and the Response of Human Melanocytes to α-Melanotropin. The Journal of investigative dermatology, vol.108, no.6, 838-842.
Sakai, C, Ollmann, M, Kobayashi, T, Abdel-Malek, Z, Muller, J, Vieira, W D, Imokawa, G, Barsh, G S, Hearing, V J. Modulation of murine melanocyte function in vitro by agouti signal protein.. The EMBO journal, vol.16, no.12, 3544-3552.
FURUMURA, MINAO, SAKAI, CHIE, ABDEL‐MALEK, ZALFA, BARSH, GREGORY S., HEARING, VINCENT J.. The Interaction of Agouti Signal Protein and Melanocyte Stimulating Hormone to Regulate Melanin Formation in Mammals. Pigment cell research, vol.9, no.4, 191-203.
Bennett, Dorothy C., Cooper, Philip J., Hart, Ian R.. A line of non‐tumorigenic mouse melanocytes, syngeneic with the B16 melanoma and requiring a tumour promoter for growth. International journal of cancer: Journal international du cancer, vol.39, no.3, 414-418.
Hoffman, Wayne L., Dowben, Robert M.. Two-dimensional polyacrylamide gel electrophoresis of ribosomal proteins: Improved resolution with Triton X-100. Analytical biochemistry, vol.89, no.2, 540-549.
Liang, P, Pardee, AB. Differential display of eukaryotic messenger RNA by means of the polymerase chain reaction. Science, vol.257, no.5072, 967-971.
Deyst, Katherine A., Bowe, Mark A., Leszyk, John D., Fallon, Justin R.. The α-Dystroglycan-β-Dystroglycan Complex. The Journal of biological chemistry, vol.270, no.43, 25956-25959.
Yang, Bin, Jung, Daniel, Motto, David, Meyer, Jon, Koretzky, Gary, Campbell, Kevin P.. SH3 Domain-mediated Interaction of Dystroglycan and Grb2. The Journal of biological chemistry, vol.270, no.20, 11711-11714.
Kubota, H., Hynes, G., Carne, A., Ashworth, A., Willison, K.. Identification of six Tcp-1-related genes encoding divergent subunits of the TCP-1-containing chaperonin. Current biology : CB, vol.4, no.2, 89-99.
Kimura, Hiroshi, Ohtomo, Takatsugu, Yamaguchi, Masato, Ishii, Atsushi, Sugimoto, Kazunori. Mouse MCM proteins: complex formation and transportation to the nucleus. Genes to cells : devoted to molecular & cellular mechanisms, vol.1, no.11, 977-993.
Sykes, Donald E., Weiser, Milton M.. Rat intestinal crypt-cell replication factor with homology to early S-phase proteins required for cell division. Gene, vol.163, no.2, 243-247.
Takahashi, K, Yamada, H, Yanagida, M. Fission yeast minichromosome loss mutants mis cause lethal aneuploidy and replication abnormality.. Molecular biology of the cell, vol.5, no.10, 1145-1158.
HUNT, GILLIAN, DONATIEN, PHILIPPE D., CRESSWELL, JANET E., THODY, ANTHONY J.. The Effect of α‐MSH on the Attachment of Human Melanocytes to Laminin and Fibronectin: Evidence for Specific α‐MSH Receptors on These Cellsa. Annals of the New York Academy of Sciences, vol.680, no.1, 549-551.
JIMBOW, KOWICHI, GOMEZ, PAUL FABIAN, TOYOFUKU, KAZUTOMO, CHANG, DANIEL, MIURA, SHUNSUKE, TSUJIYA, HIDENOBU, PARK, JONG SUNG. Biological Role of Tyrosinase Related Protein and its Biosynthesis and Transport From TGN to Stage I Melanosome, Late Endosome, Through Gene Transfection Study. Pigment cell research, vol.10, no.4, 206-213.
Yasumoto, Ken-Ichi, Yokoyama, Kouji, Shibata, Koushi, Tomita, Yasushi, Shibahara, Shigeki. Microphthalmia-Associated Transcription Factor as a Regulator for Melanocyte-Specific Transcription of the Human Tyrosinase Gene. Molecular and cellular biology, vol.14, no.12, 8058-8070.
Yasumoto, K.-i., Mahalingam, H., Suzuki, H., Yoshizawa, M., Yokoyama, K., Shibahara, S.. Transcriptional Activation of the Melanocyte-Specific Genes by the Human Homolog of the Mouse Microphthalmia Protein. The Journal of biochemistry, vol.118, no.5, 874-881.
Bertolotto, C, Bille, K, Ortonne, J P, Ballotti, R. Regulation of tyrosinase gene expression by cAMP in B16 melanoma cells involves two CATGTG motifs surrounding the TATA box: implication of the microphthalmia gene product. The Journal of cell biology, vol.134, no.3, 747-755.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
출판사/학술단체 등이 한시적으로 특별한 프로모션 또는 일정기간 경과 후 접근을 허용하여, 출판사/학술단체 등의 사이트에서 이용 가능한 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.