By Michael Pillay,George Ude,Chittaranjan Kole
Musa is considered one of 3 genera within the relatives of Musaceae. Over 50 species of Musa exist, together with bananas and plantains. This e-book assembles the newest details at the genomic study of this genus. a bunch of major specialists in Musa genetics, genomics, and breeding offer easy in addition to complex details for these attracted to studying extra concerning the banana genome. The available type is definitely understood through scholars and researchers, making the e-book an incredible springboard for these seeking to do increased study into this crop.
By Yuri M. Yevdokimov,V.I. Salyanov,S.V. Semenov,S.G. Skuridin
The discovery of the spatial constitution of the double-stranded DNA molecule is likely one of the maximum achievements of technology. it will now not be an exaggeration to claim that the DNA double helix is a wonderful image of contemporary biology.
Divided into 3 components, DNA Liquid-Crystalline Dispersions and Nanoconstructions covers the data almost immediately on hand at the condensation of assorted different types of DNA and describes functional functions of the extraordinary homes of the liquid-crystalline particles.
- Part 1 describes the most equipment used for condensation of linear excessive- and low-molecular mass DNA, together with their complexes with polycations and round DNA
- Part 2 compares the country and reactivity of double-stranded nucleic acid molecules mounted spatially within the liquid-crystalline besides as the similar molecules below intracellular conditions
- Part 3 explains how the invention of the basic ideas underlying the formation of nucleic acid liquid-crystalline dispersion debris opens a gate for the operational use of those rules within the region of nanotechnology and biosensorics
With distinct insurance of DNA liquid crystals, this publication offers an realizing of the knowledge almost immediately on hand at the condensation of varied varieties of DNA. Double-stranded nucleic acids, spatially prepared in a liquid-crystalline constitution, symbolize a major polyfunctional software for molecular biology and nanobiotechnology. the opportunity of programmed and regulated adaptations within the homes of those molecules and within the features in their liquid-crystalline dispersions, offers vast strategies for the formation of biologically energetic 3-dimensional buildings with special, greatly appropriate properties.
By Dieter Eibl,Regine Eibl
Dynamic Single-Use Bioreactors utilized in smooth Liter- and m3- Scale Biotechnological techniques: Engineering features and Scaling Up, by way of Christian Löffelholz, Stephan C. Kaiser, Matthias Kraume, Regine Eibl , Dieter Eibl. Orbitally Shaken Single-Use Bioreactors, through Wolf Klöckner, Sylvia Diederichs, Jochen Büchs.
Therapeutic Human Cells: Manufacture for cellphone Therapy/Regenerative drugs via Christian van den Bos, Robert Keefe, Carmen Schirmaier, Michael McCaman.
Fast Single-Use VLP Vaccine Productions in accordance with Insect Cells and the Baculovirus Expression Vector procedure: Influenza as Case examine by means of Regine Eibl, Nina Steiger, Sabine Wellnitz, Tiago Vicente, Corinne John, Dieter Eibl.
Microbial excessive mobile Density Fermentations in a Stirred Single-Use Bioreactor through Thomas Dreher, Bart Walcarius, Ute Husemann, Franziska Klingenberg, Christian Zahnow, Thorsten Adams, Davy de Wilde, Peter Casteels, Gerhard Greller.
Quorus Bioreactor: a brand new Perfusion-Based expertise for Microbial Cultivation via Sheena J. Fraser, Christian Endres.
Cultivation of Marine Microorganisms in Single-Use platforms through Friederike Hillig, Maciej Pilarek, Stefan Junne, Peter Neubauer.
Flexible Biomanufacturing techniques that deal with the desires of the longer term through Bernhard Diel, Christian Manzke, Thorsten Peuker.
An method of caliber and defense of provide for Single-Use Bioreactors via Magali Barbaroux, Susanne Gerighausen, Heiko Hackel.
A hazard research for construction strategies with Disposable Bioreactors by way of Tobias Merseburger, Ina Pahl, Daniel Müller, Markus Tanner.
By William M. (Bill) Huitt
The merely entire and authoritative reference advisor to the ASME Bioprocessing Piping and gear (BPE) standard
This is a better half advisor to the ASME Bioprocessing Piping and gear (BPE) commonplace and explains what lies at the back of a few of the specifications and suggestions inside that commonplace. Following an introductory narrative to the Standard's early historical past, comparable codes and criteria are defined; the layout and engineering elements conceal development fabrics, either metal and nonmetallic; then elements, fabrication, meeting and deploy of piping structures are explored. exam, Inspection and trying out then precede the ASME BPE certification strategy, concluding with a dialogue on process design.
The writer attracts on decades' adventure and insights from first-hand involvement within the box of business piping layout, engineering, development, and administration, which include the bioprocessing undefined. The reader will study why dimensions and tolerances, procedure instrumentation, and fabric choice play such an essential component within the manufacture of parts and instrumentation.
This effortless to appreciate and navigate consultant will support engineers (design, piping, chemical, etc.) who have to comprehend the root for far of the Standard’s content material, as do the contractors and inspectors who've to fulfill and validate compliance with the BPE Standard.
By Wayne R. Bidlack,Stanley T. Omaye,Mark S. Meskin,Debra K.W. Topham
This publication may be of curiosity to nutrition scientists and technologists, nutrition method engineers, biochemists, nutritionists, public future health execs, and marketers enthusiastic about the layout, processing, and advertising of recent practical nutrients products.
By Valeria (Ed.) Matranga,Valeria Matranga
By Robert K. Delong,Qiongqiong Zhou
Introductory Experiments on Biomolecules and their Interactions offers a unique method of instructing biomolecules within the lab. whereas that includes the considered necessary basics, it additionally captures the author’s adventure in undefined, hence delivering certain, up to date experiments which take the educational adventure one-step additional.
The textual content parallels lectures utilizing a typical biochemistry undergraduate textual content. not like most modern lab manuals in the market which easily emphasize an advent of innovations, this lab guide presents scholars with possibilities to illustrate and end up the information and theories they research from class.
- Features quantitative research of RNA degradation by means of RNase
- Contains challenge units, calculations, and references for every lab totally immersing scholars within the studying process
- Includes guideline on tips on how to hold a lab laptop and write a proper lab report
- Provides hands-on engagement with the 4 significant varieties of biomolecules and “real-life and higher utilized examples of molecular interactions
By Michael J. Roy,Roy
Because of speedy advancements within the biotechnology industry—and the big variety of disciplines that give a contribution to its collective growth—there is a heightened have to extra rigorously plan and completely combine biotech improvement initiatives. regardless of the wealth of operations event and linked literature to be had, no unmarried publication has but provided a finished, sensible consultant to basics.
Filling the void, Biotechnology Operations: rules and Practices displays this integrative philosophy, serving as a pragmatic advisor for college students, pros, or someone else with pursuits within the biotech undefined. even supposing many books emphasize particular technical features of biotech, this is often might be the 1st to combine crucial options of product improvement and clinical and administration abilities with the seven useful parts of biotechnology:
- Clinical trials
- Nonclinical studies
- Project management
- Quality assurance
- Quality control
- Regulatory affairs
A useful roadmap to optimizing biotechnology operations, this reference illustrates tips to use particular product making plans, layout, and venture administration methods to seamlessly merge plans and efforts within the key sensible components. using classes discovered during the nascent heritage of biotech, writer Michael Roy highlights developmental rules that may convey destiny items to industry extra thoroughly and successfully. Drawing from his studies operating in and educating a graduate path on the collage of Wisconsin, this hotly expected publication clarifies uncomplicated methodologies and practices to aid lessen dangers and get to the bottom of difficulties as destiny technological discoveries are constructed into tangible products.
By Jose Cuevas Valenzuela,Jose Rodrigo Vergara-Salinas,Jose Ricardo Perez-Correa
The growing to be obstacle for human wellness has generated a rise within the call for for polyphenols, secondary plant metabolites that show diverse bioactive homes. This expanding call for is principally because of the present functions within the meals the place polyphenols are thought of crucial for human wellbeing and fitness and meals.
Advances in applied sciences for generating Food-relevant Polyphenols offers researchers, scientists, engineers, and pros all for the foodstuff with the most recent methodologies and kit valuable to extract, isolate, purify, and study polyphenols from assorted to be had resources, equivalent to herbs, flowers, greens, end result, and agro-industrial wastes. applied sciences at the moment used so as to add polyphenols to various nutrition matrices also are integrated.
This publication serves a connection with layout and scale-up strategies to procure polyphenols from assorted plant resources and to provide polyphenol-rich meals with bioactive houses (e.g. antioxidant, antibacterial, antiviral, anticancer houses) of curiosity for human future health.
By Shang-Tian Yang,Hesham El-Ensashy,Nuttha Thongchul
Sets the degree for large-scale creation of biofuels and bio-based chemicals
In reaction to diminishing offers in addition to the environmental dangers posed by means of fossil fuels and petrochemicals, curiosity and insist for eco-friendly, sustainable biofuels and bio-based chemical substances are hovering. Biomass could be the answer. it really is an considerable carbon-neutral renewable feedstock that may be used for the creation of fuels and chemical substances. at the moment, biorefineries use corn, soybeans, and sugarcane for bioethanol and biodiesel construction; despite the fact that, there are lots of demanding situations dealing with biorefineries, combating biomass from achieving its complete potential.
This publication offers a finished assessment of bioprocessing applied sciences that use lignocellulosic biomass for the construction of biofuels, biochemicals, and biopolymers. It starts off with an summary of built-in biorefineries. subsequent, it covers:
- Biomass feedstocks, together with sugar, starch, oil, and effort vegetation in addition to microalgae
- Pretreatment applied sciences for lignocellulosic biomass
- Hydrolytic enzymes utilized in biorefineries for the hydrolysis of starch and lignocelluloses
- Bioconversion applied sciences for present and destiny biofuels akin to ethanol, biodiesel, butanol, hydrogen, and biogas
- Specialty chemical compounds, construction block chemical substances, and biopolymers produced through fermentation
- Phytochemicals and practical meals constituents extracted from plant materials
All the chapters were written and edited through top specialists in bioprocessing and biorefining applied sciences. Contributions are in keeping with a radical assessment of the literature in addition to the authors' firsthand event constructing and dealing with bioprocessing technologies.
By surroundings forth the present country of the expertise and pointing to promising new instructions in study, Bioprocessing applied sciences in Biorefinery for Sustainable construction of Fuels, chemical substances, and Polymers will permit readers to maneuver in the direction of large-scale, sustainable, and low-priced creation of biofuels and bio-based chemicals.