[1]陈 彪,邹 龙,黄运红,等.微生物氮代谢调控研究进展[J].江西师范大学学报(自然科学版),2021,(05):493-502.[doi:10.16357/j.cnki.issn1000-5862.2021.05.08]
　CHEN Biao,ZOU Long,HUANG Yunhong,et al.The Research Progress on the Regulation of Microbial Nitrogen Metabolism[J].Journal of Jiangxi Normal University:Natural Science Edition,2021,(05):493-502.[doi:10.16357/j.cnki.issn1000-5862.2021.05.08]

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微生物氮代谢调控研究进展()

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[1] Jenkins V A,Barton R,Robertson B D,et al.Genome wide analysis of the complete GlnR nitrogen-response regulon in Mycobacterium smegmatis[J].Bmc Genomics,2013,14(1):301.
[2] Amon J,Braeu T,Grimrath A,et al.Nitrogen control in Mycobacterium smegmatis:nitrogen-dependent expression of ammonium transport and assimilation proteins depends on the OmpR-type regulator GlnR[J].Journal of Bacteriology,2008,190(21):7108-7116.
[3] Tiffert Y,Supra P,Wurm R,et al.The Streptomyces coelicolor GlnR regulon:identification of new GlnR targets and evidence for a central role of GlnR in nitrogen metabolism in actinomycetes[J].Molecular Microbiology,2008,67(4):861-880.
[4] Gunka K,Commichau F M.Control of glutamate homeostasis in Bacillus subtilis:a complex interplay between ammonium assimilation,glutamate biosynthesis and degradation[J].Molecular Microbiology,2012,85(2):213-224.
[5] Tiffert Y,Franz-Wachtel M,Fladerer C,et al.Proteomic analysis of the GlnR-mediated response to nitrogen limitation in Streptomyces coelicolor M145[J].Applied Microbiology and Biotechnology,2011,89(4):1149-1159.
[6] Fisher S H,Wray L V Jr.Bacillus subtilis glutamine synthetase regulates its own synthesis by acting as a chaperone to stabilize GInR-DNA complexes[J].Proceedings of the National Academy of Sciences of the United States of America,2008,105(3):1014-1019.
[7] Fisher S H.Regulation of nitrogen metabolism in Bacillus subtilis:vive la difference![J].Molecular Microbiology,1999,32(2):223-232.
[8] Prival M J,Brenchley J E,Magasanik B.Glutamine synthetase and the regulation of histidase formation in Klebsiella aerogenes[J].The Journal of Biological Chemistry,1973,248(12):4334-4344.
[9] Prival M J,Magasanik B.Resistance to catabolite repression of histidase and proline oxidase during nitrogen-limited growth of Klebsiella aerogenes[J].The Journal of Biological Chemistry,1971,246(20):6288-6296.
[10] Merrick M J,Edwards R A.Nitrogen control in bacteria[J].Microbiological Reviews,1995,59(4):604-622.
[11] Wray L V Jr,Atkinson M R,Fisher S H.Identification and cloning of the glnR locus,which is required for transcription of the glnA gene in Streptomyces coelicolor A3(2)[J].Journal of Bacteriology,1991,173(22):7351-7360.
[12] Mcfarland N,Mccarter L,Artz S,et al.Nitrogen regulatory locus "glnR" of enteric bacteria is composed of cistrons ntrB and ntrC:identification of their protein products[J].Proceedings of the National Academy of Sciences of the United States of America,1981,78(4):2135-2139.
[13] Fink D,Weissschuh N,Reuther J,et al.Two transcriptional regulators GlnR and GlnRII are involved in regulation of nitrogen metabolism in Streptomyces coelicolor A3(2)[J].Molecular Microbiology,2002,46(2):331-347.
[14] Amon J,Titgemeyer F,Burkovski A.Common patterns-unique features:nitrogen metabolism and regulation in Gram-positive bacteria[J].Fems Microbiology Reviews,2010,34(4):588-605.
[15] Kukol J C,Pedrosa F O,de Souza G A,et al.Proteomic and metabolomic analysis of Azospirillum brasilense ntrC mutant under high and low nitrogen conditions[J].Journal of Proteome Research,2020,19(1):92-105.
[16] 李琴,燕永亮,苏磊,等.一般氮代谢调控蛋白NtrC的研究进展[J].中国农业科技导报,2013,15(3):113-122.
[17] Pullan S T,Chandra G,Bibb M J,et al.Genome-wide analysis of the role of GlnR in Streptomyces venezuelae provides new insights into global nitrogen regulation in actinomycetes[J].BMC Genomics,2011,12(1):175.
[18] Wang Tianshu,Zhao Xiyun,Shi Haowen,et al.Positive and negative regulation of transferred nif genes mediated by indigenous GlnR in Gram-positive Paenibacillus polymyxa[J].Plos Genetics,2018,14(9):1-24.
[19] Malm S,Tiffert Y,Micklinghoff J,et al.The roles of the nitrate reductase NarGHJI,the nitrite reductase NirBD and the response regulator GlnR in nitrate assimilation of Mycobacterium tuberculosis[J].Microbiology-Sgm,2009,155(4):1332-1339.
[20] Liu Xinxin,Shen Mengjia,Liu Weibing,et al.GlnR-mediated regulation of short-chain fatty acid assimilation in Mycobacterium smegmatis[J].Frontiers in Microbiology,2018,9:1311.
[21] You Di,Xu Ying,Yin Bincheng,et al.Nitrogen regulator GInR controls redox sensing and lipids anabolism by directly activating the whiB3 in Mycobacterium smegmatis[J].Frontiers in Microbiology,2019,10:74.
[22] Rakovitsky N,Baroz M,Goldberg K,et al.The unexpected essentiality of glnA2 in Mycobacterium smegmatis is salvaged by overexpression of the global nitrogen regulator glnR,but not by L-,D- or iso-glutamine[J].Frontiers in Microbiology,2018,9:2143.
[23] Kloosterman T G,Hendriksen W T,Bijlsma J J E,et al.Regulation of glutamine and glutamate metabolism by GlnR and GlnA in Streptococcus pneumoniae[J].Journal of Biological Chemistry,2006,281(35):25097-25109.
[24] Motib A S,Al-Bayati F A Y,Manzoor I,et al.TprA/PhrA quorum sensing system has a major effect on pneumococcal survival in respiratory tract and blood,and its activity is controlled by CcpA and GInR[J].Frontiers in Cellular and Infection Microbiology,2019,9:326.
[25] Chen Y Y M,Chen Y Y,Hung J L,et al.The GlnR regulon in Streptococcus mutans is differentially regulated by GlnR and PmrA[J].Plos One,2016,11(7):1-17.
[26] Chen Peimin,Chen Y Y M,Yu S L,et al.Role of GlnR in acid-mediated repression of genes encoding proteins involved in glutamine and glutamate metabolism in Streptococcus mutans[J].Applied and Environmental Microbiology,2010,76(8):2478-2486.
[27] Castellen P,Rego F G M,Portugal M E G,et al.The Streptococcus mutans GlnR protein exhibits an increased affinity for the glnRA operon promoter when bound to GlnK[J].Brazilian Journal of Medical and Biological Research,2011,44(12):1202-1208.
[28] Larsen R,Kloosterman T G,Kok J,et al.GlnR-mediated regulation of nitrogen metabolism in Lactococcus lactis[J].Journal of Bacteriology,2006,188(13):4978-4982.
[29] Wang Tianshu,Zhao Xiyun,Shi Haowen,et al.Positive and negative regulation of transferred nif genes mediated by indigenous GlnR in gram-positive Paenibacillus polymyxa[J].Plos Genetics,2018,14(9):1-24.
[30] Kormelink T G,Koenders E,Hagemeijer Y,et al.Comparative genome analysis of central nitrogen metabolism and its control by GlnR in the class Bacilli[J].Bmc Genomics,2012,13:191.
[31] Wray L V Jr,Fisher S H.Bacillus subtilis GlnR contains an autoinhibitory C-terminal domain required for the interaction with glutamine synthetase[J].Molecular Microbiology,2008,68(2):277-285.
[32] Wray L V Jr,Ferson A E,Fisher S H.Expression of the Bacillus subtilis ureABC operon is controlled by multiple regulatory factors including CodY,GlnR,TnrA,and Spo0H[J].Journal of Bacteriology,1997,179(17):5494-5501.
[33] Zalieckas J M,Wray L V,Fisher S H.Cross-regulation of the Bacillus subtilis glnRA and tnrA genes provides evidence for DNA binding site discrimination by GlnR and TnrA[J].Journal of Bacteriology,2006,188(7):2578-2585.
[34] Fernandes G D C,Hauf K,Sant’anna F H,et al.Glutamine synthetase stabilizes the binding of GlnR to nitrogen fixation gene operators[J].Febs Journal,2017,284(6):903-918.
[35] Schreier H J,Brown S W,Hirschi K D,et al.Regulation of Bacillus subtilis glutamine synthetase gene expression by the product of the glnR gene[J].Journal of Molecular Biology,1989,210(1):51-63.
[36] Bohannon D E,Sonenshein A L.Positive regulation of glutamate biosynthesis in Bacillus subtilis[J].Journal of Bacteriology,1989,171(9):4718-4727.
[37] Belitsky B R,Sonenshein A L.Modulation of activity of Bacillus subtilis regulatory proteins GltC and TnrA by glutamate dehydrogenase[J].Journal of Bacteriology,2004,186(11):3399-3407.
[38] Schell M A.Molecular biology of the LysR family of transcriptional regulators[J].Annual Review of Microbiology,1993,47(1):597-626.
[39] Belitsky B R,Janssen P J,Sonenshein A L.Sites required for GltC-dependent regulation of Bacillus subtilis glutamate synthase expression[J].Journal of Bacteriology,1995,177(19):5686-5695.
[40] Wacker I,Ludwig H,Reif I,et al.The regulatory link between carbon and nitrogen metabolism in Bacillus subtilis:regulation of the gltAB operon by the catabolite control protein CcpA[J].Microbiology-Sgm,2003,149(10):3001-3009.
[41] Belitsky B R,Kim H J,Sonenshein A L.CcpA-dependent regulation of Bacillus subtilis glutamate dehydrogenase gene expression[J].Journal of Bacteriology,2004,186(11):3392-3398.
[42] Commichau F M,Herzberg C,Tripal P,et al.A regulatory protein-protein interaction governs glutamate biosynthesis in Bacillus subtilis:the glutamate dehydrogenase RocG moonlights in controlling the transcription factor GltC[J].Molecular Microbiology,2007,65(3):642-654.
[43] Rodriguez-Garcia A,Sola-Landa A,Apel K,et al.Phosphate control over nitrogen metabolism in Streptomyces coelicolor:direct and indirect negative control of glnR,glnA,glnII and amtB expression by the response regulator PhoP[J].Nucleic Acids Research,2009,37(10):3230-3242.
[44] Kenney L J.Structure/function relationships in OmpR and other winged-helix transcription factors[J].Current Opinion in Microbiology,2002,5(2):135-141.
[45] Liu Qinghua,Paroo Z.Biochemical principles of small RNA pathways[J].Annual Review of Biochemistry,2010,79:295-319.
[46] Choudhuri S.Lesser known relatives of miRNA[J].Biochemical and Biophysical Research Communications,2009,388(2):177-180.
[47] Chu C-Y,Rana T M.Small RNAs:regulators and guardians of the genome[J].Journal of Cellular Physiology,2007,213(2):412-419.
[48] Michaux C,Hartke A,Martini C,et al.Involvement of Enterococcus faecalis small RNAs in stress response and virulence[J].Infection and Immunity,2014,82(9):3599-3611.
[49] Storz G,Vogel J,Wassarman K M.Regulation by small RNAs in Bacteria:expanding frontiers[J].Molecular Cell,2011,43(6):880-891.
[50] Babski J,Maier L-K,Heyer R,et al.Small regulatory RNAs in Archaea[J].Rna Biology,2014,11(5):484-493.
[51] Durand S,Tomasini A,Braun F,et al.sRNA and mRNA turnover in gram-positive bacteria[J].Fems Microbiology Reviews,2015,39(3):316-330.
[52] Gottesman S,Storz G.Bacterial small RNA regulators:versatile roles and rapidly evolving variations[J].Cold Spring Harbor Perspectives in Biology,2011,3(12):a003798.
[53] Moll I,Leitsch D,Steinhauser T,et al.RNA chaperone activity of the Sm-like Hfq protein[J].Embo Reports,2003,4(3):284-289.
[54] Muller S,Leclerc F,Behm-Ansmant I,et al.Combined in silico and experimental identification of the Pyrococcus abyssi H/ACA sRNAs and their target sites in ribosomal RNAs[J].Nucleic Acids Research,2008,36(8): 2459-2475.
[55] Phok K,Moisan A,Rinaldi D,et al.Identification of CRISPR and riboswitch related RNAs among novel noncoding RNAs of the euryarchaeon Pyrococcus abyssi[J].Bmc Genomics,2011,12:312.
[56] Paya G,Bautista V,Camacho M,et al.Small RNAs of Haloferax mediterranei:identification and potential involvement in nitrogen metabolism[J].Genes,2018,9(2):83.
[57] Livny J,Brencic A,Lory S,et al.Identification of 17 Pseudomonas aeruginosa sRNAs and prediction of sRNA-encoding genes in 10 diverse pathogens using the bioinformatic tool sRNAPredict2[J].Nucleic Acids Research,2006,34(12):3484-3493.
[58] Romeo A,Sonnleitner E,Sorger-Domenigg T,et al.Transcriptional regulation of nitrate assimilation in Pseudomonas aeruginosa occurs via transcriptional antitermination within the nirBD-PA1779-cobA operon[J].Microbiology-Sgm,2012,158(6):1543-1552.
[59] Rediers H,Vanderleyden J,de Mot R.Azotobacter vinelandii:a Pseudomonas in disguise?[J].Microbiology-Sgm,2004,150(5):1117-1119.
[60] Wenner N,Maes A,Cotado-Sampayo M,et al.NrsZ:a novel,processed,nitrogen-dependent,small non-coding RNA that regulates Pseudomonas aeruginosa PAO1 virulence[J].Environmental Microbiology,2014,16(4):1053-1068.
[61] de Lay N,Gottesman S.The Crp-activated small noncoding regulatory RNA CyaR(RyeE)links nutritional status to group behavior[J].Journal of Bacteriology,2009,191(2):461-476.
[62] Sharma C M,Darfeuille F,Plantinga T H,et al.Small RNA regulates multiple ABC transporter mRNAs by targeting C/A-rich elements inside and upstream of ribosome-binding sites[J].Genes and Development,2007,21(21):2804-2817.
[63] Sharma C M,Papenfort K,Pernitzsch S R,et al.Pervasive post-transcriptional control of genes involved in amino acid metabolism by the Hfq-dependent GcvB small RNA[J].Molecular Microbiology,2011,81(5):1144-1165.
[64] Stewart V.Dual interacting two-component regulatory systems mediate nitrate- and nitrite-regulated gene expression in Escherichia coli[J].Research in Microbiology,1994,145(5/6):450-454.
[65] Prasse D,Schmitz R A.Small RNAs involved in regulation of nitrogen metabolism[M].John Wiley and Sons,Ltd,2018.
[66] Muro-Pastor M I,Reyes J C,Florenclo F J.Ammonium assimilation in cyanobacteria[J].Photosynthesis Research,2005,83(2):135-150.
[67] Golden J W,Yoon H S.Heterocyst development in Anabaena[J].Current Opinion in Microbiology,2003,6(6):557-563.
[68] Klaenhn S,Schaal C,Georg J,et al.The sRNA NsiR4 is involved in nitrogen assimilation control in cyanobacteria by targeting glutamine synthetase inactivating factor IF7[J].Proceedings of the National Academy of Sciences of the United States of America,2015,112(45):6243-6252.
[69] Kopf M,Klaehn S,Pade N,et al.Comparative genome analysis of the closely related Synechocystis strains PCC 6714 and PCC 6803[J].DNA Research,2014,21(3):255-266.
[70] Bentzon-Tilia M,Severin I,Hansen L H,et al.Genomics and ecophysiology of heterotrophic nitrogen-fixing bacteria isolated from estuarine surface water[J].Mbio,2015,6(4):915-929.
[71] Yan Yongliang,Yang Jian,Dou Yuetan,et al.Nitrogen fixation island and rhizosphere competence traits in the genome of root-associated Pseudomonas stutzeri A1501[J].Proceedings of the National Academy of Sciences of the United States of America,2008,105(21):7564-7569.
[72] Zhan Yuhua,Yan Yongliang,Deng Zhiping,et al.The novel regulatory ncRNA,NfiS,optimizes nitrogen fixation via base pairing with the nitrogenase gene nifK mRNA in Pseudomonas stutzeri A1501[J].Proceedings of the National Academy of Sciences of the United States of America,2016,113(30):4348-4356.
[73] Prasse D,Foerstner K U,Jaeger D,et al.sRNA(154)a newly identified regulator of nitrogen fixation in Methanosarcina mazei strain Go1[J].Rna Biology,2017,14(11):1544-1558.
[74] Xu Ya,Ye Bangce.GlnR and PhoP regulate beta-glucosidases involved in cellulose digestion in response to nitrogen and phosphate availability[J].Microbiology-Sgm,2018,164(5):779-789.
[75] Wang Rui,Mast Y,Wang Jin,et al.Identification of two-component system AfsQ1/Q2 regulon and its cross-regulation with GlnR in Streptomyces coelicolor[J].Molecular Microbiology,2013,87(1):30-48.
[76] Urem M,Swiatek-Polatynska M A,Rigali S,et al.Intertwining nutrient-sensory networks and the control of antibiotic production in Streptomyces[J].Molecular Microbiology,2016,102(2):183-195.
[77] Liu Xinqiang,Liu Yuanyuan,Lei Chao,et al.GlnR dominates rifamycin biosynthesis by activating the rif cluster genes transcription both directly and indirectly in Amycolatopsis mediterranei[J].Frontiers in Microbiology,2020,11:319.
[78] He Juanmei,Zhu Hong,Zheng Guosong,et al.Direct involvement of the master nitrogen metabolism regulator GlnR in antibiotic biosynthesis in Streptomyces[J].Journal of Biological Chemistry,2016,291(51):26443-26454.