| Record ID | marc_columbia/Columbia-extract-20221130-009.mrc:51225326:5688 |
| Source | marc_columbia |
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LEADER: 05688fam a2200445 a 4500
001 4048687
005 20221027024354.0
008 950203t19951995dcua b 001 0 eng c
010 $a 95006254
020 $a1555810896 (alk. paper)
035 $a(OCoLC)32052856
035 $a(OCoLC)ocm32052856
035 $9AKU7613HS
035 $a(NNC)4048687
035 $a4048687
040 $aDNLM/DLC$cDLC$dDLC$dOrLoB
050 00 $aQR84$b.T96 1995
060 10 $aQH 601 T974 1995
082 00 $a589.9/01$220
245 00 $aTwo-component signal transduction /$cedited by James A. Hoch and Thomas J. Silhavy.
260 $aWashington, D.C. :$bASM Press,$c[1995], ©1995.
300 $axvi, 488 pages :$billustrations (some color) ;$c26 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
504 $aIncludes bibliographical references and index.
505 20 $g1.$tHistorical Perspective /$rBoris Magasanik --$g2.$tGenetic Approaches for Signaling Pathways and Proteins /$rJohn S. Parkinson --$g3.$tTwo-Component Signal Transduction Systems: Structure-Function Relationships and Mechanisms of Catalysis /$rJeffry B. Stock, Michael G. Surette, Mikhail Levit and Peter Park --$g4.$tStructural and Functional Conservation in Response Regulators /$rKarl Volz --$g5.$tControl of Nitrogen Assimilation by the NR[subscript I]-NR[subscript II] Two-Component System of Enteric Bacteria /$rAlexander J. Ninfa, Mariette R. Atkinson, Emmanuel S. Kamberov, Junli Feng and Elizabeth G. Ninfa --$g6.$tChemotactic Signal Transduction in Escherichia coli and Salmonella typhimurium /$rCharles D. Amsler and Philip Matsumura --$g7.$tPorin Regulon of Escherichia coli /$rLeslie A. Pratt and Thomas J. Silhavy --$g8.$tControl of Cellular Development in Sporulating Bacteria by the Phosphorelay Two-Component Signal Transduction System /$rJames A. Hoch --
505 80 $g9.$tMechanism of Transcriptional Activation by NtrC /$rSusan C. Porter, Anne K. North and Sydney Kustu --$g10.$tTranscription Regulation by the Bacillus subtilis Response Regulator Spo0A /$rGeorge B. Spiegelman, Terry H. Bird and Valerie Voon --$g11.$tFlagellar Switch /$rRobert M. Macnab --$g12.$tSignal Transduction and Cross Regulation in the Escherichia coli Phosphate Regulon by PhoR, CreC, and Acetyl Phosphate /$rBarry L. Wanner --$g13.$tSignal Transduction in the Arc System for Control of Operons Encoding Aerobic Respiratory Enzymes /$rShiro Iuchi and E. C. C. Lin --$g14.$tDual Sensors and Dual Response Regulators Interact to Control Nitrate- and Nitrite-Responsive Gene Expression in Escherichia coli /$rValley Stewart and Ross S. Rabin --$g15.$tRegulation of Capsule Synthesis: Modification of the Two-Component Paradigm by an Accessory Unstable Regulator /$rSusan Gottesman --$g16.$tExpression of the Uhp Sugar-Phosphate Transport System of Escherichia coli /$rRobert J. Kadner --
505 80 $g17.$tSymbiotic Expression of Rhizobium meliloti Nitrogen Fixation Genes Is Regulated by Oxygen /$rPeter G. Agron and Donald R. Helinski --$g18.$tComplex Phosphate Regulation by Sequential Switches in Bacillus subtilis /$rF. Marion Hulett --$g19.$tTwo-Component Signal Transduction and Its Role in the Expression of Bacterial Virulence Factors /$rMichelle Dziejman and John J. Mekalanos --$g20.$tRegulation of Salmonella Virulence by Two-Component Regulatory Systems /$rEduardo A. Groisman and Fred Heffron --$g21.$tBordetella pertussis BvgAS Virulence Control System /$rM. Andrew Uhl and Jeff F. Miller --$g22.$tThree-Component Regulatory System Controlling Virulence in Vibrio cholerae /$rVictor J. DiRita --$g23.$tTi Plasmid and Chromosomally Encoded Two-Component Systems Important in Plant Cell Transformation by Agrobacterium Species /$rJoe Don Heath, Trevor C. Charles and Eugene W. Nester --
505 80 $g24.$tRegulation of Glycopeptide Resistance Genes of Enterococcal Transposon Tn1546 by the VanR-VanS Two-Component Regulatory System /$rMichel Arthur, Florence Depardieu, Theodore Holman, Zhen Wu, Gerard Wright, Christopher T. Walsh and Patrice Courvalin --$g25.$tTetracycline Regulation of Conjugal Transfer Genes /$rAbigail A. Salyers, Nadja B. Shoemaker and Ann M. Stevens --$g26.$tSwitches and Signal Transduction Networks in the Caulobacter crescentus Cell Cycle /$rTodd Lane, Andrew Benson, Gregory B. Hecht, George J. Burton and Austin Newton --$g27.$tThe frz Signal Transduction System Controls Multicellular Behavior in Myxococcus xanthus /$rWenyuan Shi and David R. Zusman --$g28.$tIntercellular Communication in Marine Vibrio Species: Density-Dependent Regulation of the Expression of Bioluminescence /$rBonnie L. Bassler and Michael R. Silverman --
505 80 $g29.$tA Signal Transduction Network in Bacillus subtilis Includes the DegS/DegU and ComP/ComA Two-Component Systems /$rTarek Msadek, Frank Kunst and Georges Rapoport.
650 0 $aBacteria$xPhysiology.$0http://id.loc.gov/authorities/subjects/sh85010820
650 0 $aCellular signal transduction.$0http://id.loc.gov/authorities/subjects/sh89002397
650 0 $aBacterial genetics.$0http://id.loc.gov/authorities/subjects/sh85010849
650 0 $aBacterial cell walls.$0http://id.loc.gov/authorities/subjects/sh85010842
650 12 $aSignal Transduction$xphysiology.$0https://id.nlm.nih.gov/mesh/D015398Q000502
650 22 $aCell Communication$xphysiology.$0https://id.nlm.nih.gov/mesh/D002450Q000502
650 22 $aGene Expression Regulation, Bacterial$xphysiology.$0https://id.nlm.nih.gov/mesh/D015964Q000502
700 1 $aHoch, James A.$0http://id.loc.gov/authorities/names/n82049920
700 1 $aSilhavy, Thomas J.$0http://id.loc.gov/authorities/names/n83191893
852 00 $boff,hsl$hQR84$i.T96 1995