Papers associated with ada.2

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	Structural basis for histone H2B deubiquitination by the SAGA DUB module., Morgan MT, Haj-Yahya M, Ringel AE, Bandi P, Brik A, Wolberger C., Science. February 12, 2016; 351 (6274): 725-8.
	The Gcn5 bromodomain of the SAGA complex facilitates cooperative and cross-tail acetylation of nucleosomes., Li S, Shogren-Knaak MA., J Biol Chem. April 3, 2009; 284 (14): 9411-7.
	Adenosine receptor antagonists alter the stability of human epileptic GABAA receptors., Roseti C, Martinello K, Fucile S, Piccari V, Mascia A, Di Gennaro G, Quarato PP, Manfredi M, Esposito V, Cantore G, Arcella A, Simonato M, Fredholm BB, Limatola C, Miledi R, Eusebi F., Proc Natl Acad Sci U S A. September 30, 2008; 105 (39): 15118-23.
	The extracellular adenosine deaminase growth factor, ADGF/CECR1, plays a role in Xenopus embryogenesis via the adenosine/P1 receptor., Iijima R, Kunieda T, Yamaguchi S, Kamigaki H, Fujii-Taira I, Sekimizu K, Kubo T, Natori S, Homma KJ., J Biol Chem. January 25, 2008; 283 (4): 2255-64.
	A di-acidic sequence motif enhances the surface expression of the potassium channel TASK-3., Zuzarte M, Rinné S, Schlichthörl G, Schubert A, Daut J, Preisig-Müller R., Traffic. August 1, 2007; 8 (8): 1093-100.
	Adenine nucleotide-induced activation of adenosine A(2B) receptors expressed in Xenopus laevis oocytes: involvement of a rapid and localized adenosine formation by ectonucleotidases., Matsuoka I, Ohkubo S, Kimura J, Uezono Y., Mol Pharmacol. March 1, 2002; 61 (3): 606-13.
	Activation of inositol 1,4,5-trisphosphate receptor is essential for the opening of mouse TRP5 channels., Kanki H, Kinoshita M, Akaike A, Satoh M, Mori Y, Kaneko S., Mol Pharmacol. November 1, 2001; 60 (5): 989-98.
	ATP-dependent adenophostin activation of inositol 1,4,5-trisphosphate receptor channel gating: kinetic implications for the durations of calcium puffs in cells., Mak DO, McBride S, Foskett JK., J Gen Physiol. April 1, 2001; 117 (4): 299-314.
	Roles of cysteines in rat dipeptidyl peptidase IV/CD26 in processing and proteolytic activity., Dobers J, Grams S, Reutter W, Fan H., Eur J Biochem. August 1, 2000; 267 (16): 5093-100.
	The RNA-editing enzyme ADAR1 is localized to the nascent ribonucleoprotein matrix on Xenopus lampbrush chromosomes but specifically associates with an atypical loop., Eckmann CR, Jantsch MF., J Cell Biol. February 22, 1999; 144 (4): 603-15.
	Adenophostin A and inositol 1,4,5-trisphosphate differentially activate Cl- currents in Xenopus oocytes because of disparate Ca2+ release kinetics., Machaca K, Hartzell HC., J Biol Chem. February 19, 1999; 274 (8): 4824-31.
	The double-stranded RNA-binding domains of Xenopus laevis ADAR1 exhibit different RNA-binding behaviors., Brooks R, Eckmann CR, Jantsch MF., FEBS Lett. August 28, 1998; 434 (1-2): 121-6.
	Analysis of Xenopus dsRNA adenosine deaminase cDNAs reveals similarities to DNA methyltransferases., Hough RF, Bass BL., RNA. April 1, 1997; 3 (4): 356-70.
	RNA editing of hepatitis delta virus antigenome by dsRNA-adenosine deaminase., Polson AG, Bass BL, Casey JL., Nature. April 4, 1996; 380 (6573): 454-6.
	Deamination of mammalian glutamate receptor RNA by Xenopus dsRNA adenosine deaminase: similarities to in vivo RNA editing., Hurst SR, Hough RF, Aruscavage PJ, Bass BL., RNA. December 1, 1995; 1 (10): 1051-60.
	Toward the therapeutic editing of mutated RNA sequences., Woolf TM, Chase JM, Stinchcomb DT., Proc Natl Acad Sci U S A. August 29, 1995; 92 (18): 8298-302.
	Glutamate receptor RNA editing in vitro by enzymatic conversion of adenosine to inosine., Rueter SM, Burns CM, Coode SA, Mookherjee P, Emeson RB., Science. March 10, 1995; 267 (5203): 1491-4.
	Purification and properties of double-stranded RNA-specific adenosine deaminase from calf thymus., O'Connell MA, Keller W., Proc Natl Acad Sci U S A. October 25, 1994; 91 (22): 10596-600.
	Purification of the Xenopus laevis double-stranded RNA adenosine deaminase., Hough RF, Bass BL., J Biol Chem. April 1, 1994; 269 (13): 9933-9.
	Two related localized mRNAs from Xenopus laevis encode ubiquitin-like fusion proteins., Linnen JM, Bailey CP, Weeks DL., Gene. June 30, 1993; 128 (2): 181-8.
	Sequence requirements for transcriptional arrest in exon 1 of the human adenosine deaminase gene., Chen Z, Innis JW, Sun MH, Wright DA, Kellems RE., Mol Cell Biol. December 1, 1991; 11 (12): 6248-56.
	RDC8 codes for an adenosine A2 receptor with physiological constitutive activity., Maenhaut C, Van Sande J, Libert F, Abramowicz M, Parmentier M, Vanderhaegen JJ, Dumont JE, Vassart G, Schiffmann S., Biochem Biophys Res Commun. December 31, 1990; 173 (3): 1169-78.
	Identification and characterization of transcriptional arrest sites in exon 1 of the human adenosine deaminase gene., Chen Z, Harless ML, Wright DA, Kellems RE., Mol Cell Biol. September 1, 1990; 10 (9): 4555-64.
	Sequence requirements for transcriptional arrest in exon 1 of the murine adenosine deaminase gene., Ramamurthy V, Maa MC, Harless ML, Wright DA, Kellems RE., Mol Cell Biol. April 1, 1990; 10 (4): 1484-91.
	Molecular cloning of the murine adenosine deaminase gene from a genetically enriched source: identification and characterization of the promoter region., Ingolia DE, Al-Ubaidi MR, Yeung CY, Bigo HA, Wright D, Kellems RE., Mol Cell Biol. December 1, 1986; 6 (12): 4458-66.
	Enzymatic conversion of adenosine to inosine in the wobble position of yeast tRNAAsp: the dependence on the anticodon sequence., Haumont E, Fournier M, de Henau S, Grosjean H., Nucleic Acids Res. March 26, 1984; 12 (6): 2705-15.
	Amplification and molecular cloning of murine adenosine deaminase gene sequences., Yeung CY, Frayne EG, Al-Ubaidi MR, Hook AG, Ingolia DE, Wright DA, Kellems RE., J Biol Chem. December 25, 1983; 258 (24): 15179-85.

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