Atjaunināt sīkdatņu piekrišanu

E-grāmata: Advances in Microbial Biotechnology: Current Trends and Future Prospects [Taylor & Francis e-book]

Edited by (Point Pleasant, New Jersey, USA), Edited by (Point Pleasant, New Jersey, USA), Edited by (Point Pleasant, New Jersey, USA)
  • Formāts: 590 pages, 42 Tables, black and white; 8 Illustrations, color; 48 Illustrations, black and white
  • Izdošanas datums: 24-Sep-2018
  • Izdevniecība: Apple Academic Press Inc.
  • ISBN-13: 9781351248914
Citas grāmatas par šo tēmu:
  • Taylor & Francis e-book
  • Cena: 213,45 €*
  • * this price gives unlimited concurrent access for unlimited time
  • Standarta cena: 304,92 €
  • Ietaupiet 30%
Advances in Microbial Biotechnology: Current Trends and Future ProspectsPalielināt
  • Formāts: 590 pages, 42 Tables, black and white; 8 Illustrations, color; 48 Illustrations, black and white
  • Izdošanas datums: 24-Sep-2018
  • Izdevniecība: Apple Academic Press Inc.
  • ISBN-13: 9781351248914
Citas grāmatas par šo tēmu:
Taylor & Francis e-booksMore info about Taylor & Francis e-books
Rokasgrāmatas mājas lapa: https://www.taylorfrancis.com/books/9781351248914
Over the last few decades, the rapid and vast development of advanced microbial bioresources and metagenomics techniques has completely transformed the field of microbial biotechnology. Our understanding of microbial diversity, evolutionary biology, and microbial interaction with their animal and plant hosts at molecular level has been revolutionized with an abundance of new research.This new volume, Advances in Microbial Biotechnology: Current Trends and Future Prospect, focuses on the application of microorganisms for several purposes: for plant protection and improvement, for environmental remediation purposes, and for the improvement of human health. Various applications of microorganisms are covered broadly and have been appropriately reflected in depth in different chapters. The book is divided into four major sections: applied microbiology in agriculturemicrobes in the environmentmicrobes in human healthmicrobes in nanotechnologyThe book provides insight into the diverse microorganisms that have been explored and exploited in the development of various applications for agricultural improvements. The book also looks at the application of microbes for the removal of pollutants and the recovery of metals and oils. Also discussed is the detection and exploitation of microorganisms in the diagnosis of human diseases, providing possible holistic approaches to health.This new volume will provide a wealth of information on new research on the application of microbial biotechnology today.
List of Contributors ix
About the Editors xiii
Preface xv
Part I: Applied Microbiology in Agriculture 1(208)
1 The Genomics of Major Foodborne Pathogens: An Update
3(50)
Spiros Paramithiotis
Eleftherios H. Drosinos
Abstract
3(1)
1.1 Introduction
4(1)
1.2 Detection of Foodborne Pathogens
5(8)
1.3 Epidemiological Assessment
13(9)
1.4 Studies on Virulence-Associated Genomic Determinants
22(6)
1.5 Conclusion
28(1)
Keywords
28(1)
References
29(24)
2 Microbial Beta Glucanase in Agriculture
53(20)
Lekshmi K. Edison
S. Shiburaj
N.S. Pradeep
Abstract
53(1)
2.1 Introduction
54(1)
2.2 Beta Glucanase: Different Types
55(8)
2.3 Beta Glucanase as a Biocontrol Agent
63(1)
2.4 Beta Glucanase as a Feed Addictive
64(2)
2.5 Germination Enhancement by Beta Glucanase
66(2)
2.6 Beta Glucanase in Protoplast Preparation
68(1)
2.7 Conclusion
69(1)
Keywords
70(1)
References
70(3)
3 Application of Plant Growth Promoting Rhizobacteria in Agriculture
73(14)
Sushanto Gouda
Rout George Kerry
Dibyaranjan Samal
Gyana Prakash Mahapatra
Gitishree Das
Jayanta Kumar Patra
Abstract
74(1)
3.1 Introduction
74(2)
3.2 Plant Growth Promoting Rhizobacteria (PGPR)
76(1)
3.3 Different Classes of PGPR
76(7)
3.4 Conclusion
83(1)
Keywords
83(1)
References
83(4)
4 Microbial Pesticides-Potential Alternatives
87(32)
Bighneswar Baliyarsingh
Aseem Mishra
Saktikanta Rath
Abstract
87(2)
4.1 Introduction
89(2)
4.2 Overview of Microbial Insecticides
91(3)
4.3 Microbes: The Source of Pesticides/Insecticides
94(16)
4.4 Basic Mechanism of Action of Microbial Insecticides
110(1)
4.5 Advantages and Disadvantages of Microbial Insecticides
111(2)
4.6 Future Prospects
113(1)
Keywords
114(1)
References
114(5)
5 Microalgae: A Potential Source of Biofuel
119(34)
Devendra Kumar
Priyanka Nehra
Anuj Kumar
Neeraj Kumar
Abstract
120(1)
5.1 Introduction
120(4)
5.2 Sources of Biodiesel
124(3)
5.3 Algae: An Overview
127(6)
5.4 Isolation and Purification
133(2)
5.5 Advanced Methods
135(5)
5.6 Improvement of Microalgae through Genetic Engineering
140(1)
5.7 Algae Mass Cultivation Systems
141(2)
5.8 Downstream Processing
143(4)
5.9 Conclusion
147(1)
Keywords
147(1)
References
148(5)
6 Prospects and Application of Azospirillum spp. as a Natural Agricultural Biofertilizer
153(22)
D. Mohapatra
N.R. Singh
S.K. Rath
Abstract
153(1)
6.1 Introduction
154(9)
6.2 Application of Azospirillum as Biofertilizer in Various Ways in Agriculture
163(6)
6.3 Conclusion
169(1)
Keywords
170(1)
References
171(4)
7 Yeast: A Multifaceted Eukaryotic Microbe and Its Biotechnological Applications
175(34)
Nayan Moni Deori
Rachayeeta Deb
Riddhi Banerjee
Shirisha Nagotu
Abstract
175(1)
7.1 Introduction
176(1)
7.2 Yeast Models
176(3)
7.3 Applications
179(16)
7.4 Conclusion
195(1)
7.5 Acknowledgement
196(1)
Keywords
196(1)
References
196(13)
Part II: Microbes in the Environment 209(120)
8 Antimicrobials for Textile Finishes
211(20)
Sagarika Devi
Abstract
211(1)
8.1 Textiles: An Introduction
212(2)
8.2 Antimicrobial Agents
214(1)
8.3 Antimicrobial Textiles: History and Development
214(8)
8.4 Classification of Antimicrobial Finishes
222(1)
8.5 Functions of Antimicrobial Textiles
222(1)
8.6 Application Methodologies
222(2)
8.7 Characteristics of Antimicrobial Agents for Textiles
224(2)
8.8 Antimicrobial Textile Finishes: Concerns and Challenges
226(1)
8.9 Conclusion
227(1)
Keywords
228(1)
References
228(3)
9 Influence of Wastewater Use in Agriculture: Advances in Human and Plant Health
231(16)
Kavindra Kumar Kesari
Pooja Tripathi
Vijay Tripathi
Abstract
232(1)
9.1 Introduction
232(2)
9.2 Influence of Untreated Wastewater
234(1)
9.3 Unhealthy Crop Irrigation and Health
235(2)
9.4 Climate Change and the Environment
237(1)
9.5 Influence of Treated Wastewater in Agriculture
237(1)
9.6 Occurrence and Detection of Antibiotic Resistance in Wastewater Treatment Plants (WWTPs)
238(2)
9.7 Burning After Harvesting of Wastewater-Irrigated Crop
240(1)
Keywords
241(1)
References
241(6)
10 Microbial Fuel Cells for Wastewater Treatment, Bioremediation, and Bioenergy Production
247(24)
Ravinder Kumar
Pradeep Kumar
Abstract
248(1)
10.1 Introduction
248(1)
10.2 MFCs for Wastewater Treatment
249(6)
10.3 MFCs for Bioremediation
255(5)
10.4 MFCs for Bioelectricity Generation
260(4)
10.5 Conclusion
264(1)
10.6 Acknowledgements
264(1)
Keywords
265(1)
References
265(6)
11 Role of Microorganisms in the Removal of Fluoride
271(30)
Shubha Dwivedi
Prasenjit Mondal
Chandrajit Balomajumder
Abstract
272(1)
11.1 Introduction
272(1)
11.2 Fluoride, Its Properties, Occurrence, and Sources
273(4)
11.3 Limits of Fluoride
277(1)
11.4 Advantageous Properties of Fluoride for Human Being
278(1)
11.5 Detrimental Effects of High Concentration of Fluoride on Human Beings, Microorganisms, Plants and Animals
279(6)
11.6 Treatment Methodology
285(10)
11.7 Conclusion
295(1)
Keywords
296(1)
References
296(5)
12 Application of Microorganisms in Biodegradation of Cyanide from Wastewater
301(28)
Naveen Dwivedi
Chandrajit Balomajumder
Prasenjit Mondal
Abstract
302(1)
12.1 Introduction
302(1)
12.2 Cyanide Contamination in Water, Its Sources, and Toxic Effects on Environment
303(3)
12.3 Available Techniques of Cyanide Removal from Wastewater
306(7)
12.4 Factors Responsible for the Biodegradation of Cyanides
313(1)
12.5 Advantages of the Bioremoval of Cyanide
314(1)
12.6 Review on the Topic
315(5)
12.7 Advances on Biodegradation of Cyanide
320(2)
12.8 Conclusion
322(1)
Keywords
322(1)
References
323(6)
Part III: Microbes and Human Health 329(142)
13 Microbial Infections and Human Health: What Can Ayurveda Offer?
331(28)
Chethala N. Vishnuprasad
Abstract
331(1)
13.1 Introduction
332(4)
13.2 Concepts of Microbes in Ayurveda and Modem Biology
336(13)
13.3 Attempts to Bridge the Microbial Diseases in Modem Medicine and Ayurveda: Selected Examples
349(6)
13.4 Conclusion
355(1)
13.5 Acknowledgements
355(1)
Keywords
355(1)
References
356(3)
14 Bacteria Biofilms and Their Impact on Human Health
359(20)
Mukesh Kumar Yadav
Abstract
359(1)
14.1 Introduction
360(1)
14.2 Biofilms on Medical Indwelling Devices
361(3)
14.3 Biofilms and Periodontal Diseases
364(1)
14.4 Biofilm in Ear Infections
365(1)
14.5 Biofilms in Nose and Throat Infections
366(1)
14.6 Biofilms in Urinary Tract Infections (UTI)
367(1)
14.7 Biofilms in Cystic Fibrosis
367(2)
14.8 Biofilms in Wound Infections
369(1)
14.9 Strategies to Combat Biofilm Related Infections
370(1)
14.10 Conclusion
371(1)
Keywords
371(1)
References
371(8)
15 Prevention of Colorectal Cancer Through Probiotics, Prebiotics, and Synbiotics: A Critical Review
379(20)
Sushrirekha Das
Smita H. Panda
Niladri B. Kar
Nakulananda Mohanty
Hrudayanath Thatoi
Abstract
380(1)
15.1 Introduction
380(1)
15.2 Colorectal Cancer
381(6)
15.3 Probiotics
387(2)
15.4 Synbiotics
389(4)
15.5 Conclusion and Future Prospective
393(1)
Keywords
393(1)
References
393(6)
16 Purification and Characterization of Microbial Polygalacturonases: An Update
399(22)
Gautam Anand
Sangeeta Yadav
Aiman Tanveer
Dinesh Yadav
Abstract
399(1)
16.1 Introduction
400(1)
16.2 Purification of Microbial Polygalacturonases (PGs)
401(9)
16.3 Applications of Polygalacturonases
410(2)
16.4 Conclusion
412(1)
16.5 Acknowledgements
413(1)
Keywords
413(1)
References
413(8)
17 Natural Agents Against Filariasis: A Review
421(10)
Vishal Kumar Soni
Abstract
421(1)
17.1 Introduction
422(2)
17.2 Review of Natural Antifilarials
424(4)
17.3 Conclusion
428(1)
Keywords
428(1)
References
429(2)
18 Maximizing Expression and Yield of Human Recombinant Proteins from Bacterial Cell Factories for Biomedical Applications
431(40)
Manash P. Borgohain
Gloria Narayan
H. Krishna Kumar
Chandrima Dey
Rajkumar P. Thummer
Abstract
432(1)
18.1 Introduction
433(1)
18.2 Strategies for Enhancing Heterologous Protein Expression
434(17)
18.3 Strategies for Enhancing the Final Yield
451(7)
18.4 Applications of Recombinant Proteins
458(2)
18.5 Conclusion
460(1)
18.6 Acknowledgments
461(1)
Keywords
461(1)
References
462(9)
Part IV: Microbes in Nanotechnology 471(86)
19 Microbes and Nanotechnology: A Potent Confluence
473(46)
Reecha Sahu
Lata S.B. Upadhyay
Abstract
473(1)
19.1 Introduction
474(1)
19.2 Role of Microorganisms in Nanoparticle Synthesis
475(11)
19.3 Nanoparticles as Antimicrobial Agents
486(16)
19.4 Nanotechnology-Based Detection and Biosensing of Microorganisms
502(5)
19.5 Nanoparticle Toxicity: A Limitation or Challenge to Be Addressed
507(1)
19.6 Conclusion
508(1)
Keywords
509(1)
References
509(10)
20 Potential Applications of Nanotechnology, an Interface in Modern Science
519(18)
Anjan Kumar Pradhan
Sushil Kumar Sahu
Abstract
519(1)
20.1 Introduction
520(2)
20.2 Terminologies
522(1)
20.3 Use of Nanomicrobiology
523(8)
20.4 Challenges and Issues
531(1)
20.5 Conclusion
532(1)
Keywords
533(1)
References
533(4)
21 A Systematic Study on Phyto-Synthesized Silver Nanoparticles and their Antimicrobial Mode of Action
537(20)
Anupriya Baranwal
Ananya Srivastava
Pranjal Chandra
Abstract
538(1)
21.1 Introduction
538(4)
21.2 Biosynthesis of Silver Nanoparticles
542(3)
21.3 Extraction and Characterization of Silver Nanoparticles
545(1)
21.4 Application of Silver Nanoparticles to Mitigate the Effect of Pathogenic Microbes
546(5)
21.5 Conclusion
551(1)
21.6 Acknowledgement
552(1)
21.7 Conflict of interest
552(1)
Keywords
553(1)
References
553(4)
Index 557
Jayanta Kumar. Patra Kumar PhD. , Pranjal Chandra
Permanent link: https://www.kriso.lv/db/9781351248914_pe.html
Keywords: