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200 00$aProgress in inorganic chemistry$hVolume 58 /$fedited by Kenneth D. Karlin
210  1$aHoboken, New Jersey :$cJohn Wiley & Sons,$d2014.
210  4$dİ2014
215   $a1 online resource (525 p.)
225 1 $aProgress in Inorganic Chemistry
300   $aDescription based upon print version of record.
311   $a1-118-79282-3 
320   $aIncludes bibliographical references and indexes.
327   $aProgress in Inorganic Chemistry; Contents; Chapter 1: Tris(dithiolene) Chemistry: A Golden Jubilee; I. INTRODUCTION; II. LIGANDS; A. Arene Dithiolates; B. Alkene Dithiolates; 1. Sulfur; 2. Carbon Disulfide; 3. Phosphorus Pentasulfide; 4. Other Sulfur Sources; C. Dithiones; III. COMPLEXES; A. Metathesis; B. Redox; C. Transmetalation; IV. STRUCTURES; A. Beginnings; 1. Neutral Complexes; 2. Reduced Complexes; 3. Isoelectronic Series; B. Redux; 1. Trigonal Twist; 2. Dithiolene Fold; 3. Oxidized Ligands; V. THEORY; A. Hu?ckel; B. Fenske-Hall; VI. ELECTROCHEMISTRY; VII. MAGNETOMETRY
327   $aVIII. SPECTROSCOPYA. Vibrational; B. Electronic; C. Nuclear Magnetic Resonance; D. Electron Paramagnetic Resonance; 1. Spin Doublet; 2. Spin Quartet; E. X-Ray Absorption Spectroscopy; 1. Metal Edges; 2. Sulfur K-Edge; F. Mo?ssbauer; IX. SUMMARY; A. Group 4 (IV B); B. Group 5 (V B); C. Group 6 (VI B); D. Group 7 (VII B); E. Group 8 (VIII B); F. Group 9 (VIII B) and Beyond; X. CONCLUSIONS; ACKNOWLEDGMENTS; ABBREVIATIONS; REFERENCES; Chapter 2: How to Find an HNO Needle in a (Bio)-Chemical Haystack; I. INTRODUCTION; A. Azanone and Its Elusive Nature; II. CHEMICAL AND BIOLOGICAL RELEVANCE OF HNO
327   $aA. Chemical Relevance of HNO as a Reaction Intermediate1. HNO Donors; 2. Reactions in Which Azanone Has Been Proposed As an Intermediate; B. Azanone Biological Relevance: Friend or Foe?; III. AZANONE DETECTION METHODS; A. Trapping vs Real-Time Detection; B. Colorimetric Methods; 1. Manganese Porphyrins as Trapping Agents; 2. Miscellaneous Colorimetric Methods; C. Thiol Blocking; D. Phosphines; E. Electron Paramagnetic Resonance; F. Mass Spectrometry; G. Fluorescence-Based Methods; H. Electrochemical Real-Time Detection; IV. CONCLUSIONS AND FUTURE PERSPECTIVES; ACKNOWLEDGMENTS; ABBREVIATIONS
327   $aREFERENCESChapter 3: Photoactive Metal Nitrosyl and Carbonyl Complexes Derived from Designed Auxiliary Ligands: An Emerging Class of Photochemotherapeutics; I. INTRODUCTION; II. METAL NITROSYL AND CARBONYL COMPLEXES AS NITRIC OXIDE AND CARBON MONOXIDE DONORS; III. PHOTOACTIVE METAL NITROSYL COMPLEXES; A. Metal Nitrosyl Complexes With Monodentate Ligands; B. Metal Nitrosyl Complexes Derived from Polydentate Ligands With Extended Structure; C. Metal Nitrosyl Complexes Derived from Polydentate Ligands With Carboxamide Groups; D. Polymer Matrices With Incorporated Metal Nitrosyl Complexes
327   $aIV. PHOTOACTIVE METAL CARBONYL COMPLEXESA. Homoleptic Metal Carbonyls; B. Metal Carbonyl Complexes With Amino Acid Ligands; C. Manganese(I) Tricarbonyl Complexes; D. Metal Carbonyl Complexes Derived from Polydentate Ligands; V. CONCLUSION; ACKNOWLEDGMENT; ABBREVIATIONS; REFERENCES; Chapter 4: Metal-Metal Bond-Containing Complexes as Catalysts for C-H Functionalization; I. INTRODUCTION; A. Overview of Metal-Metal Multiple Bonds; B. Early Examples of M-M Bond-Containing Complexes in Catalysis; C. Metal-Metal Bonding; D. Structural Manifestations of M-M Bonding
327   $aE. Physical and Spectroscopic Properties of M-M Bond-Containing Compounds
330   $a This series provides inorganic chemists and materials scientists with a forum for critical, authoritative evaluations of advances in every area of the discipline. Volume 58 continues to report recent advances with a significant, up-to-date selection of contributions by internationally-recognized researchers. The chapters of this volume are devoted to the following topics:  Tris(dithiolene) Chemistry: A Golden Jubilee How to find an HNO needle in a (bio)-chemical Haystack  Photoactive Metal Nitrosyl and Carbonyl Complexes Derived from Designed Auxiliary
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200 10$aAgrobacterium Biology $eFrom Basic Science to Biotechnology /$fedited by Stanton B. Gelvin
205   $a1st ed. 2018.
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327   $aOne more decade of Agrobacterium taxonomy -- The Ecology of Agrobacterium vitis and management of crown gall disease in vineyards -- Niche construction and exploitation by Agrobacterium: How to survive and face competition in soil and plant habitats -- Cell wall biogenesis during elongation and division in the plant pathogen Agrobacterium tumefaciens -- Exopolysaccharides of Agrobacterium tumefaciens -- Function and Regulation of Agrobacterium tumefaciens Cell Surface Structures that Promote Attachment -- Coping with high temperature: A unique regulation in A. tumefaciens -- Small non-coding RNAs in Agrobacterium tumefaciens -- The Agrobacterium type VI secretion system: a contractile nanomachine for interbacterial competition -- The Agrobacterium VirB/VirD4 T4SS: Mechanism and architecture defined through in vivo mutagenesis and chimeric systems -- Real-time trafficking of Agrobacterium virulence protein VirE2 inside host cells -- The mechanism of T-DNA integration: The major unresolved questions -- Transcriptome profiling of plant genes in response to Agrobacterium tumefaciens-mediated transformation -- Agrobacterium-mediated transformation of yeast and fungi -- The Agrobacterium phenotypic plasticity (plast) genes -- Agrobacterium-mediated transformation in the evolution of plants -- Beyond Agrobacterium-mediated transformation: horizontal gene transfer from bacteria to eukaryotes -- Agrobacterium: A Genome Editing Tool-Delivery System -- Advancing Agrobacterium-based crop transformation and genome modification technology for agricultural biotechnology.
330   $aThis volume reviews various facets of Agrobacterium biology, from modern aspects of taxonomy and bacterial ecology to pathogenesis, bacterial cell biology, plant and fungal transformation, natural transgenics, and biotechnology. Agrobacterium-mediated transformation is the most extensively utilized platform for generating transgenic plants, but modern biotechnology applications derive from more than 40 years of intensive basic scientific research. Many of the biological principles established by this research have served as models for other bacteria, including human and animal pathogens. Written by leading experts and highlighting recent advances, this volume serves both as an introduction to Agrobacterium biology for students as well as a more comprehensive text for research scientists.
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