Template:ListRefOfID

ListRefOfID arg1 arg2: search references containing arg1 in namespace arg2 and list them. Year and journal names are also listed.

Year	Journal	Reference
1987	Biochim._Biophys._Acta	Lanzotti_V:De_Rosa_M:Trincone_A:Basso_A:Gambacorta_A:Zillig_W:, Biochim._Biophys._Acta, 1987, 922, 95
2010	Int._J._Syst._Evol._Microbiol.	Minegishi_H:Echigo_A:Nagaoka_S:Kamekura_M:Usami_R:, Int._J._Syst._Evol._Microbiol., 2010, 60, 2513
1999	Biochim._Biophys._Acta	Uda_I:Sugai_A:Kon_K:Ando_S:Itoh_YH:Itoh_T:, Biochim._Biophys._Acta, 1999, 1439, 363
1990	Biochem._Cell._Biol.	Nishihara_M:Koga_Y:, Biochem._Cell._Biol., 1990, 68, 91
2012	Archaea	Lobasso_S:Lopalco_P:Angelini_R:Vitale_R:Huber_H:Muller_V:Corcelli_A:, Archaea, 2012, 2012, 957852
1998	Biochim._Biophys._Acta	Morii_H:Eguchi_T:Nishihara_M:Kakinuma_K:Konig_H:Koga_Y:, Biochim._Biophys._Acta, 1998, 1390, 339
1982	Biochim._Biophys._Acta	Kushwaha_SC:Kates_M:Juez_G:Rodriguez-Valera_F:Kushner_DJ:, Biochim._Biophys._Acta, 1982, 711, 19
1986	Arch._Microbiol.	Oulevey_J:Bahl_H:Thiele_OW:, Arch._Microbiol., 1986, 144, 166
1993	J._Am._Chem._Soc.	Zhang_D:Poulter_CD:, J._Am._Chem._Soc., 1993, 115, 1270
1978	Prog._Chem._Fats_Other_Lipids	Kates_M:, Prog._Chem._Fats_Other_Lipids, 1978, 15, 301
1977	Biochim._Biophys._Acta	Langworthy_TA:, Biochim._Biophys._Acta, 1977, 487, 37
1994	Microbiology	Upasani_VN:Desai_SG:Moldoveanu_N:Kates_M:, Microbiology, 1994, 140, 1959
1989	Biochim._Biophys._Acta	Lanzotti_V:Trincone_A:Nicolaus_B:Zilling_W:De_Rosa_M:Gambacorta_A:, Biochim._Biophys._Acta, 1989, 1004, 44
2000	Biochim._Biophys._Acta	Uda_I:Sugai_A:Shimizu_A:Itoh_YH:Itoh_T:, Biochim._Biophys._Acta, 2000, 1484, 83
1985	Science	Brock_TD:, Science, 1985, 230, 132
1993	Appl._Environ._Microbiol.	Sprott_GD:Dicaire_CJ:Choquet_CG:Patel_GB:Ekiel_I:, Appl._Environ._Microbiol., 1993, 59, 912
1982	Can._J._Microbiol.	Kushwah_SC:Juez-Perez_G:Rodriguez-Valera_F:Kates_M:Kushner_DJ:, Can._J._Microbiol., 1982, 28, 1365
2006	Anal._Biochem.	Koga_Y:Morii_H:, Anal._Biochem., 2006, 348, 1
1980	Biochim._Biophys._Acta	Smith_PF:, Biochim._Biophys._Acta, 1980, 619, 367
1993	Biochim._Biophys._Acta	Trincone_A:Trivellone_E:Nicolaus_B:Lama_L:Pagnotta_E:Grant_WD:Gambacorta_A:, Biochim._Biophys._Acta, 1993, 1210, 35
2004	Arch._Microbiol.	Jahn_U:Summons_R:Sturt_H:Grosjean_E:Huber_H:, Arch._Microbiol., 2004, 182, 404
1992	Syst._Appl._Microbiol.	Trincone_A:Nicolaus_B:Palmieri_G:De_Rosa_M:Huberm_R:Huber_G:Stetter_K.O:Gambacorta_A:, Syst._Appl._Microbiol., 1992, 15, 11
1981	Biochim._Biophys._Acta	Kushwaha_SC:Kates_M:Sprott_GD:Smith_IC:, Biochim._Biophys._Acta, 1981, 664, 156
1995	J._Chem._Soc._Chem._Commun.	Graether_O:Arigoni_D:, J._Chem._Soc._Chem._Commun., 1995, 4, 405
1989	J._Gen._Microbiol.	Trincone_A:Lanzotti_V:Nicolaus_B:Zillig_W:De_Rosa_M:Gambacorta_A:, J._Gen._Microbiol., 1989, 135, 2751
1993	Syst._Appl._Microbiol.	Hafenbradl_D:Keller_M:Thiericke_R:Stetter_KO:, Syst._Appl._Microbiol., 1993, 16, 165
1993	Biochim._Biophys._Acta	Kates_M:Moldoveanu_N:Stewart_LC:, Biochim._Biophys._Acta, 1993, 1169, 46
2002	J._Oleo_Sci.	Tanoue_S:Sugai_A:Uda_I:Shimizu_A:Itoh_YH:Itoh_T:, J._Oleo_Sci., 2002, 51, 663
1997	Extremophiles	Blochl_E:Rachel_R:Burggraf_S:Hafenbradl_D:Jannasch_HW:Stetter_KO:, Extremophiles, 1997, 1, 14
2008	Environ._Microbiol.	De_la_Torre_JR:Walker_CB:Ingalls_AE:Koenneke_M:Stahl_DA:, Environ._Microbiol., 2008, 10, 810
1979	Science	Tornabene_TG:Langworthy_TA:, Science, 1979, 203, 51
1988	Biochim._Biophys._Acta	Thurl_S:Schafer_W:, Biochim._Biophys._Acta, 1988, 961, 253
1995	Syst._Appl._Microbiol.	McGenity_TJ:Grant_WD:, Syst._Appl._Microbiol., 1995, 18, 237
2007	J._UOEH	Tarui_M:Tanaka_N:Tomura_K:Ohga_M:Morii_H:Koga_Y:, J._UOEH, 2007, 29, 131
1990	Microbiology	Trincone_A.:Nicolaus_B:Lama_L:De_Rosa_M:Gambacorta_A:Grant_WD:, Microbiology, 1990, 136, 2327
1996	FEMS_Microbiol._Lett.	Hafenbradl_D:Keller_M:Stetter_KO:, FEMS_Microbiol._Lett., 1996, 136, 199
1988	Agric._Biol._Chem.	Morii_H:Nishihara_M:Koga_Y:, Agric._Biol._Chem., 1988, 52, 3149
1993	Syst._Appl._Microbiol.	Koga_Y:Akagawa-Matsushita_M:Ohga_M:Nishihara_M:, Syst._Appl._Microbiol., 1993, 16, 342
1997	Biochim._Biophys._Acta	Swain_M:Brisson_JR:Sprott_GD:Cooper_FP:Patel_GB:, Biochim._Biophys._Acta, 1997, 1345, 56
1996	J._Jpn._Oil_Chem._Soc.	Sugai_A:Uda_I:Kon_K:Ando_S:Itoh_YH:Itoh_T:, J._Jpn._Oil_Chem._Soc., 1996, 45, 327
1999	Biochim._Biophys._Acta	Morii_H:Yagi_H:Akutsu_H:Nomura_N:Sako_Y:Koga_Y:, Biochim._Biophys._Acta, 1999, 1436, 426
1995	Arch._Microbiol.	Keller_M:Braun_FJ:Dirmeier_R:Hafenbradl_D:Burggraf_S:Rachel_R:Stetter_KO:, Arch._Microbiol., 1995, 164, 390
1989	Biochim._Biophys._Acta	Lanzotti_V:Nicolaus_B:Trincone_A:De_Rosa_M:Grant_WD:Gambacorta_A:, Biochim._Biophys._Acta, 1989, 1001, 31
1986	J._Biol._Chem.	Ferrante_G:Ekiel_I:Sprott_GD:, J._Biol._Chem., 1986, 261, 17062
2000	J._Biol._Chem.	Morii_H:Nishihara_M:Koga_Y:, J._Biol._Chem., 2000, 275, 36568
2000	J._Jpn._Oil_Chem._Soc.	Sugai_A:Masuchi_Y:Uda_I:Itoh_T:Itoh_YH:, J._Jpn._Oil_Chem._Soc., 2000, 49, 695
2003	Biochim._Biophys._Acta	Sprott_GD:Larocque_S:Cadotte_N:Dicaire_CJ:McGee_M:Brisson_JR:, Biochim._Biophys._Acta, 2003, 1633, 179
2009	J._Lipid_Res.	De_Souza_LM:Muller-Santos_M:Iacomini_M:Gorin_PA:Sassaki_GL:, J._Lipid_Res., 2009, 50, 1363
1990	Biochem._Cell._Biol.	Ferrante_G:Richards_JC:Sprott_GD:, Biochem._Cell._Biol., 1990, 68, 274
1992	FEMS_Microbiol._Lett.	Nichols_PD:Franzmann_PD:, FEMS_Microbiol._Lett., 1992, 98, 205
1989	J._Lipid_Res.	Ferrante_G:Brisson_JR:Patel_GB:Ekiel_I:Sprott_GD:, J._Lipid_Res., 1989, 30, 1601
2002	J._Bacteriol.	Shimada_H:Nemoto_N:Shida_Y:Oshima_T:Yamagishi_A:, J._Bacteriol., 2002, 184, 556
1977	Phytochemistry	De_Rosa_M:De_Rosa_S:Gambacorta_A:Minale_L:Bulock_JD:, Phytochemistry, 1977, 16, 1961
2002	Archaea	Nishihara_M:Morii_H:Matsuno_K:Ohga_M:Stetter_KO:Koga_Y:, Archaea, 2002, 1, 123
1990	J._Biol._Chem.	Sprott_GD:Ekiel_I:Dicaire_C:, J._Biol._Chem., 1990, 265, 13735
1975	J._Gen._Microbiol.	De_Rosa_M:Gambacorta_A:Bulock_JD:, J._Gen._Microbiol., 1975, 86, 165
1999	Biochim._Biophys._Acta	Sprott_GD:Brisson_J:Dicaire_CJ:Pelletier_AK:Deschatelets_LA:Krishnan_L:Patel_GB:, Biochim._Biophys._Acta, 1999, 1440, 275
1988	Syst._Appl._Microbiol.	Franzmann_PD:Stackebrandt_E:_Sanderson_K:_Volkman_JK:_Cameron_DE:_Stevenson_PL:_McMeekin_TA:Burton_HR:, Syst._Appl._Microbiol., 1988, 11, 20
1997	Can._J._Microbiol.	Sprott_GD:Agnew_BJ:Patel_GB:, Can._J._Microbiol., 1997, 43, 467
2000	Lipids	Uda_I:Sugai_A:Itoh_YH:Itoh_T:, Lipids, 2000, 35, 1155
1988	J._Gen._Microbiol.	De_Rosa_M:Gambacorta_A:Grant_WD:Lanzotti_V:Nicolaus_B:, J._Gen._Microbiol., 1988, 134, 205
1980	Phytochemistry	De_Rosa_M:De_Rosa_S:Gambacorta_A:Bulock_JD:, Phytochemistry, 1980, 19, 249
1994	Biochim._Biophys._Acta	Sprott_GD:Ferrante_G:Ekiel_I:, Biochim._Biophys._Acta, 1994, 1214, 234
1962	Can._J._Biochem._Physiol.	Sehgal_SN:Kates_M:Gibbons_NE:, Can._J._Biochem._Physiol., 1962, 40, 69
2008	Appl._Environ._Microbiol.	Schouten_S:Hopmans_EC:Baas_M:Boumann_H:Standfest_S:Konneke_M:Stahl_DA:Sinninghe_Damste_JS:, Appl._Environ._Microbiol., 2008, 74, 2433
1985	FEMS_Microbiol._Lett.	Sabine_Morth:Tindall_BJ:, FEMS_Microbiol._Lett., 1985, 29, 285
2010	ISME_J.	Pitcher_A:Rychlik_N:Hopmans_EC:Spieck_E:Rijpstra_WI:Ossebaar_J:Schouten_S:Wagner_M:Damste_JS:, ISME_J., 2010, 4, 542
1975	J._Gen._Microbiol.	De_Rosa_M:Gambacorta_A:Bulock_JD:, J._Gen._Microbiol., 1975, 86, 156
2002	J._Lipid_Res.	Damste_JS:Schouten_S:Hopmans_EC:van_Duin_AC:Geenevasen_JA:, J._Lipid_Res., 2002, 43, 1641
1992	J._Biol._Chem.	Nishihara_M:Utagawa_M:Akutsu_H:Koga_Y:, J._Biol._Chem., 1992, 267, 12432
2005	Syst._Appl._Microbiol.	Gibson_JA:Miller_MR:Davies_NW:Neill_GP:Nichols_DS:Volkman_JK:, Syst._Appl._Microbiol., 2005, 28, 19
1981	Biochim._Biophys._Acta	Smallbone_BW:Kates_M:, Biochim._Biophys._Acta, 1981, 665, 551
1981	Science	[[Reference:Kushwaha_SC:Kates_M:Sprott_GD:Smith_IC:,Science,1981,211,1163\|comment=The archaetidylglycerol here is actually reported as archaeol with sn-1-glycerol phosphate by NMR study. This configuration, sn-1-GP, is enantiomeric with other results in extreme halophiles (De Rosa 1988), as is written in this paper. Here we register archaetidyl-sn-3-glycerol as the molecule found.	comment=The archaetidylglycerol here is actually reported as archaeol with sn-1-glycerol phosphate by NMR study. This configuration, sn-1-GP, is enantiomeric with other results in extreme halophiles (De Rosa 1988), as is written in this paper. Here we register archaetidyl-sn-3-glycerol as the molecule found. ]]
2003	J._Bacteriol.	Morii_H:Koga_Y:, J._Bacteriol., 2003, 185, 1181
1978	Biochem._Biophys._Res._Commun.	Makula_RA:Singer_ME:, Biochem._Biophys._Res._Commun., 1978, 82, 716
1987	Syst._Appl._Microbiol.	De_Rosa_M:Gambacorta_A:Trincone_A:Basso_A:Zillig_W:Holz_I:, Syst._Appl._Microbiol., 1987, 9, 1
1988	Biochim._Biophys._Acta	Ferrante_G:Ekiel_I:Patel_GB:Sprott_GD:, Biochim._Biophys._Acta, 1988, 963, 162
1989	Biochemistry	Nishihara_M:Morii_H:Koga_Y:, Biochemistry, 1989, 28, 95
1987	J._Biochem.	Nishihara_M:Koga_Y:, J._Biochem., 1987, 101, 997
1995	Biochim._Biophys._Acta	Nishihara_M:Koga_Y:, Biochim._Biophys._Acta, 1995, 1254, 155
1993	Syst._Appl._Microbiol.	comment=Analysis includes core lipids, polar head groups, and glycolipid sugar on 18 species. Only hydroxyarchaeols are listed here. In addition, Methanosarcina alcaliphila and methanosalinarium flagellum are excluded (from sharing LBGAHB0N02) because of the ambiguity of their species identification. Two isomers of hydroxyarchaeol were discriminated by the response of monoalkylglycerol to the NaIO₄-Schiff reagent. Methanosaeta concilii is now Methanothrix soehngenii.	comment=Analysis includes core lipids, polar head groups, and glycolipid sugar on 18 species. Only hydroxyarchaeols are listed here. In addition, Methanosarcina alcaliphila and methanosalinarium flagellum are excluded (from sharing LBGAHB0N02) because of the ambiguity of their species identification. Two isomers of hydroxyarchaeol were discriminated by the response of monoalkylglycerol to the NaIO₄-Schiff reagent. Methanosaeta concilii is now Methanothrix soehngenii.
1987	J._Biochem.	Nishihara_M:Morii_H:Koga_Y:, J._Biochem., 1987, 101, 1007
1974	J._Bacteriol.	Langworthy_TA:Mayberry_WR:Smith_PF:, J._Bacteriol., 1974, 119, 106
1989	J._Lipid_Res.	Lo_SL:Montague_CE:Chang_EL:, J._Lipid_Res., 1989, 30, 944
2004	J._Bacteriol.	Nichols_DS:Miller_MR:Davies_NW:Goodchild_A:Raftery_M:Cavicchioli_R:, J._Bacteriol., 2004, 186, 8508
1986	J._Lipid_Res.	Morii_H:Nishihara_M:Ohga_M:Koga_Y:, J._Lipid_Res., 1986, 27, 724
1985	J._Gen._Microbiol.	Grant_WD:Pinch_G:Harri_JE:De_Rosa_M:Gambacorta_A:, J._Gen._Microbiol., 1985, 131, 3277
1986	Biochim._Biophys._Acta	Morii_H:Koga_Y:, Biochim._Biophys._Acta, 1986, 879, 103
2009	J._Biol._Chem.	Morii_H:Kiyonari_S:Ishino_Y:Koga_Y:, J._Biol._Chem., 2009, 284, 30766
1993	Microbiol._Rev.	Koga_Y:Nishihara_M:Morii_H:Akagawa-Matsushita_M:, Microbiol._Rev., 1993, 57, 164
1982	J._Gen._Microbiol.	De_Rosa_M:Gambacorta_A:Nicolaus_B:Ross_HNM:Grant_WD:Bulock_JD:, J._Gen._Microbiol., 1982, 128, 343
1991	Biochim._Biophys._Acta	Nishihara_M:Koga_Y:, Biochim._Biophys._Acta, 1991, 1082, 211
1983	Science	Comita_PB:Gagosian_RB:, Science, 1983, 222, 1329
1995	Syst._Appl._Microbiol.	Nishihara_M:Akagawa-Matsushita_M:Togo_Y:Koga_Y:, Syst._Appl._Microbiol., 1995, 79, 400
2008	Int._J._Syst._Evol._Microbiol.	Gutierrez_MC:Castillo_AM:Pagaling_E:Heaphy_S:Kamekura_M:Xue_Y:Ma_Y:Cowan_DA:Jones_BE:Grant_WD:Ventosa_A:, Int._J._Syst._Evol._Microbiol., 2008, 58, 2031
2002	Int._J._Syst._Evol._Microbiol.	Lizama_C:Monteoliva-Sanchez_M:Suarez-Garcia_A:Rosello-Mora_R:Aguilera_M:Campos_V:Ramos-Cormenzana_A:, Int._J._Syst._Evol._Microbiol., 2002, 52, 149
2004	J._Oleo_Sci.	Sugai_A:Uda_I:Itoh_YH:Itoh_T:, J._Oleo_Sci., 2004, 53, 41
1987	Biochem._J.	Kramer_JK:Sauer_FD:Blackwell_BA:, Biochem._J., 1987, 245, 139
1999	Int._J._Syst._Bacteriol.	Xu_Y:Zhou_P:Tian_X:, Int._J._Syst._Bacteriol., 1999, 49, 261
2005	Int._J._Syst._Evol._Microbiol.	Kuwabara_T:Minaba_M:Iwayama_Y:Inouye_I:Nakashima_M:Marumo_K:Maruyama_A:Sugai_A:Itoh_T:Ishibashi_J:Urabe_T:Kamekura_M:, Int._J._Syst._Evol._Microbiol., 2005, 55, 2507
1994	Biochim._Biophys._Acta	Matsubara_T:Iida-Tanaka_N:Kamekura_M:Moldoveanu_N:Ishizuka_I:Onishi_H:Hayashi_A:Kates_M:, Biochim._Biophys._Acta, 1994, 1214, 97
1981	Science	Kushwaha_SC:Kates_M:Sprott_GD:Smith_IC:, Science, 1981, 211, 1163
1986	Biochim._Biophys._Acta	De_Rosa_M:Gambacorta_A:Lanzotti_V:Trincone_A:Harris_JE:Grant_WD:, Biochim._Biophys._Acta, 1986, 875, 487
2005	Biosci._Biotechnol._Biochem.	[[Reference:Koga_Y:Morii_H:,Biosci._Biotechnol._Biochem.,2005,69,2019\|comment=This is a review article summarizing 2-hydroxy-archaeol (LBGAHG1N01 LBGAHE1N01 LBGAHN1N01), H-shaped caldarchaeol (LBGADB0N02), bisarchaetidyl-glycerol (ether-type analog of cardiolipin) LBGAAX0N01 LBGAAN3S01, and others.	comment=This is a review article summarizing 2-hydroxy-archaeol (LBGAHG1N01 LBGAHE1N01 LBGAHN1N01), H-shaped caldarchaeol (LBGADB0N02), bisarchaetidyl-glycerol (ether-type analog of cardiolipin) LBGAAX0N01 LBGAAN3S01, and others. ]]
1990	Biochim._Biophys._Acta	Moldoveanu_N:Kates_M:Montero_CG:Ventosa_A:, Biochim._Biophys._Acta, 1990, 1046, 127
1982	Can._J._Microbiol.	[[Reference:Kushwah_SC:Juez-Perez_G:Rodriguez-Valera_F:Kates_M:Kushner_DJ:,Can._J._Microbiol.,1982,28,1365\|comment=Halobacterium cutirubrum was merged to H. salinarum (See LPSN and also our index.) In the original paper two species were separately reported but we list only the salinarum (synonym for salinarium ) plus LBGAAG0N08, which was identified in H. cutirubrum.	comment=Halobacterium cutirubrum was merged to H. salinarum (See LPSN and also our index.) In the original paper two species were separately reported but we list only the salinarum (synonym for salinarium ) plus LBGAAG0N08, which was identified in H. cutirubrum. ]]
2000	Biochemistry	Corcelli_A:Colella_M:Mascolo_G:Fanizzi_FP:Kates_M:, Biochemistry, 2000, 39, 3318
1980	Biochim._Biophys._Acta	Evans_RW:Kushwaha_SC:Kates_M:, Biochim._Biophys._Acta, 1980, 619, 533
1993	Biochim._Biophys._Acta	[[Reference:Kates_M:Moldoveanu_N:Stewart_LC:,Biochim._Biophys._Acta,1993,1169,46\|comment=Halobacterium salinarium in this paper is synonym for Halobacterium salinarum (See LPSN and also our index.)	comment=Halobacterium salinarium in this paper is synonym for Halobacterium salinarum (See LPSN and also our index.) ]]
1988	Biochim._Biophys._Acta	Ferrante_G:Ekiel_I:Patel_GB:Sprott_GD:, Biochim._Biophys._Acta, 1988, 963, 173
1984	J._Biol._Chem.	Comita_PB:Gagosian_RB:Pang_H:Costello_CE:, J._Biol._Chem., 1984, 259, 15234
1975	Arch._Microbiol.	Bohlool_BB:, Arch._Microbiol., 1975, 106, 171
1985	J._Gen._Microbiol.	Grant_WD:Pinch_G:Harris_JE:De_Rosa_M:Gambacorta_A:, J._Gen._Microbiol., 1985, 131, 3277
1980	Phytochemistry	De_Rosa_M:Esposito_E:Gambacorta_A:Nicolaus_B:Bulock_JD:, Phytochemistry, 1980, 19, 827
1981	Biochem._Biophys._Res._Commun.	Ekiel_I:Marsh_D:Smallbone_BW:Kates_M:Smith_IC:, Biochem._Biophys._Res._Commun., 1981, 100, 105
1973	J._Lipid_Res.	Kates_M:Deroo_PW:, J._Lipid_Res., 1973, 14, 438
1991	J._Lipid_Res.	Hedrick_DB:Guckert_JB:White_DC:, J._Lipid_Res., 1991, 32, 659
1987	Biochim._Biophys._Acta	Ferrante_G:Ekiel_I:Sprott_GD:, Biochim._Biophys._Acta, 1987, 921, 281
1998	Extremophiles	Gonzalez_JM:Masuchi_Y:Robb_FT:Ammerman_JW:Maeder_DL:Yanagibayashi_M:Tamaoka_J:Kato_C:, Extremophiles, 1998, 2, 123
1983	J._Membr._Biol.	Gliozzi_A:Rolandi_R:De_Rosa_M:Gambacorta_A:, J._Membr._Biol., 1983, 75, 45
1973	J._Lipid_Res.	Hancock_AJ:Kates_M:, J._Lipid_Res., 1973, 14, 422
1976	Phytochemistry	De_Rosa_M:Gambacorta_A:Bulock_JD:, Phytochemistry, 1976, 15, 143
1983	J._Gen._Microbiol.	De_Rosa_M:Gambacorta_A:Nicolaus_B:Grant_WD:, J._Gen._Microbiol., 1983, 129, 2333

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