scholarly journals The ever-expanding limits of enzyme catalysis and biodegradation: polyaromatic, polychlorinated, polyfluorinated, and polymeric compounds

2020 ◽  
Vol 477 (15) ◽  
pp. 2875-2891
Author(s):  
Lawrence P. Wackett ◽  
Serina L. Robinson
Keyword(s):  
Enzyme Catalysis ◽  
Functional Group ◽  
Polyaromatic Hydrocarbons ◽  
Aquatic Species ◽  
Major Focus ◽  
Chemical Substances ◽  
Polyfluorinated Compounds ◽  
Living Things ◽  
Polymeric Compounds ◽  
Enzyme Reactivity

Biodegradation is simply the metabolism of anthropogenic, or otherwise unwanted, chemicals in our environment, typically by microorganisms. The metabolism of compounds commonly found in living things is limited to several thousand metabolites whereas ∼100 million chemical substances have been devised by chemical synthesis, and ∼100 000 are used commercially. Since most of those compounds are not natively found in living things, and some are toxic or carcinogenic, the question arises as to whether there is some organism somewhere with the enzymes that can biodegrade them. Repeatedly, anthropogenic chemicals have been denoted ‘non-biodegradable,’ only to find they are reactive with one or more enzyme(s). Enzyme reactivity has been organized into categories of functional group transformations. The discovery of new functional group transformations has continually expanded our knowledge of enzymes and biodegradation. This expansion of new-chemical biodegradation is driven by the evolution and spread of newly evolved enzymes. This review describes the biodegradation of widespread commercial chemicals with a focus on four classes: polyaromatic, polychlorinated, polyfluorinated, and polymeric compounds. Polyaromatic hydrocarbons include some of the most carcinogenic compounds known. Polychlorinated compounds include polychlorinated biphenyls (PCBs) and many pesticides of the twentieth century. Polyfluorinated compounds are a major focus of bioremediation efforts today. Polymers are clogging landfills, killing aquatic species in the oceans and increasingly found in our bodies. All of these classes of compounds, each thought at one time to be non-biodegradable, have been shown to react with natural enzymes. The known limits of enzyme catalysis, and hence biodegradation, are continuing to expand.

Introduction to Bioproducts and Bioseparations

2015 ◽  
Author(s):  
Roger G. Harrison ◽  
Paul W. Todd ◽  
Scott R. Rudge ◽  
Demetri P. Petrides
Keyword(s):  
Ex Vivo ◽  
Blood Clot ◽  
Chemical Properties ◽  
Downstream Processing ◽  
Added Value ◽  
Chemical Substances ◽  
Whole Cells ◽  
Living Things ◽  
Insecticide Activity

Bioproducts—chemical substances or combinations of chemical substances that are made by living things—range from methanol to whole cells. They are derived by extraction from whole plants and animals or by synthesis in bioreactors containing cells or enzymes. Bioproducts are sold for their chemical activity: methanol for solvent activity, ethanol for its neurological activity or as a fuel, penicillin for its antibacterial activity, taxol for its anticancer activity, streptokinase (an enzyme) for its blood clot dissolving activity, hexose isomerase for its sugar-converting activity, and whole Bacillus thuringiensis cells for their insecticide activity, to name a few very different examples. The wide variety represented by this tiny list makes it clear that bioseparations must encompass a correspondingly wide variety of methods. The choice of separation method depends on the nature of the product, remembering that purity, yield, and activity are the goals, and the most important of these is activity. This first chapter therefore reviews the chemical properties of bioproducts with themes and examples chosen to heighten awareness of those properties that must be recognized in the selection of downstream processes that result in acceptably high final purity while preserving activity. The final part of this chapter is an introduction to the field of bioseparations, which includes a discussion of the stages of downstream processing, the basic principles of engineering analysis as applied to bioseparations, and the various factors involved in developing a bioproduct for the marketplace. The pharmaceutical, agrichemical, and biotechnology bioproduct industries account for many billion dollars in annual sales—neglecting, of course, commodity foods and beverages. By “bioproduct” we mean chemical substances that are produced in or by a biological process, either in vivo or ex vivo (inside or outside a living organism). Figure 1.1 indicates a clear inverse relationship between bioproduct market size and cost. Owing to intense competition, cost, price, and value are very closely related, except in the case of completely new products that are thoroughly protected by patents, difficult to copy, and of added value to the end user.

Variation in Sensitivity of Aquatic Species to Toxicants: Practical Consequences for Effect Assessment of Chemical Substances

2000 ◽  
Vol 25 (4) ◽  
pp. 415-423 ◽  
Author(s):  
Manon A. Vaal ◽  
Cees J. Van Leeuwen ◽  
Janneke A. Hoekstra ◽  
Joop L. M. Hermens
Keyword(s):  
Aquatic Species ◽  
Chemical Substances ◽  
Effect Assessment

Rancang Bangun Alat Eliminasi Gas Buang Menggunakan Mekanisme Ejektor

2017 ◽  
Vol 4 (2) ◽  
pp. 115
Author(s):  
Makmur Saini ◽  
Rusdi Nur ◽  
Sattar Sattar ◽  
Ibrahim Ibrahim
Keyword(s):  
Environmental Pollution ◽  
Air Conditioning ◽  
Air Velocity ◽  
Chemical Substances ◽  
Flow Capacity ◽  
Several Variables ◽  
Living Things ◽  
Human Care ◽  
Natural Component

Environmental pollution (pollutants) can be caused by natural events or human care through uncontrolled industrial and technological activities, this can be a threat to living things including humans in the future. This phenomenon is caused by the entry of particles or chemical substances that do not exist in the natural component so that it exceeds the amount that should be. Pollution is the inclusion of substances, energy and aliens into the environment so that the quality of the environment decreases and no longer suitable allocation. Efforts to reduce or control environmental pollution that some environmental scientists and practitioners have done in a better way by the structures produced by various industries and technologies that are seen as backbones. The research installation can provide detailed information about the shape and structure of the current in the pipe (analogized as the exhaust) in the direction and the vertical velocity to air will be inhaled by the fluid of the liquid (air) as motive fluid in the opposite direction. The suction strength of the liquid against the airflow is greatly determined by the vacuum pressure in the chamber because of the effect of the working ejector that is geometrically formed so that the image can be adjusted to that achievement. The parameters used to measure performance in the design of this air-contaminating air-conditioning installation plant are composed of several variables in the ratio of changes between air velocity and liquid flow in opposite directions, vacuum compressions are formed large enough, the fluid flow capacity of the ejector, revascular and the ability to transform gas pollutants into liquid pollutants.

Children Refusing School for Attention

2018 ◽  
pp. 189-232
Author(s):  
Christopher A. Kearney ◽  
Anne Marie Albano
Keyword(s):  
Disruptive Behavior ◽  
Functional Group ◽  
School Attendance ◽  
School Refusal ◽  
Major Focus ◽  
Major Goal ◽  
Running Away ◽  
Set Up ◽  
Treatment Procedures ◽  
Out Of School

Chapter 6 describes treatment procedures for children refusing school for attention. Common behaviors in this functional group include noncompliance (refusing parent and/or teacher commands), overall disruptive behavior to stay out of school, clinging, refusal to move, tantrums, running away, constant telephoning or texting, and guilt-inducing behaviors. The major focus of treatment is the parents, and the major goal of treatment is to shift the parents’ attention away from school refusal behaviors and toward appropriate school attendance behaviors. Parents are taught to issue unambiguous commands to the child without insulting or lecturing. They are encouraged to set up and adhere to a morning routine is discussed. The importance of identifying and consistently applying rewards and consequences is emphasized.

Recent Catalytic Advances in the Synthesis of Organic Symmetric Disulfides

2020 ◽  
Vol 24 (5) ◽  
pp. 550-581 ◽  
Author(s):  
Ong Chiu Ling ◽  
Nader Ghaffari Khaligh ◽  
Juan Joon Ching
Keyword(s):  
Functional Group ◽  
Bond Formation ◽  
Self Assembled Monolayers ◽  
Disulfide Bond Formation ◽  
Organic Transformations ◽  
Major Focus ◽  
Organic Functional Group ◽  
Assembled Monolayers ◽  
Patent Literature ◽  
Synthetic Intermediates

Organic symmetric disulfides have been broadly studied in various fields such as synthetic intermediates for various organic transformations, agro-chemicals, biochemistry, pharmacological chemistry, industrial polymers, peptidomimetics, self-assembled monolayers (SAMs), etc. Owing to versatile applications, the search and development of efficient, environmentally friendly, mild and inexpensive methods for the preparation of organic disulfides play an important role in the organic functional group transformations. Various aspects of the S–S bond formation are available in some books on organic functional group transformations, as well as two review articles that have been published in the years 2008 and 2014 highlighting the developments of disulfide bond formation using a variety of reagents. However, investigations on new catalytic methods are being regularly reported and new types of disulfides are synthesized. The present review has attempted to systematically summarize recent catalytic advances in the process of S–S bond formation with a major focus since 2014 on highlighting mechanistic considerations, scope, advantages, and limitations. This review does not include patent literature.

Fluorescent potentiometric dyes for membrane-potential imaging

1994 ◽  
Vol 52 ◽  
pp. 166-167
Author(s):  
Leslie M. Loew
Keyword(s):  
Membrane Potential ◽  
Single Cells ◽  
Quantitative Imaging ◽  
Optical Recording ◽  
Biological Processes ◽  
Major Focus ◽  
The Past ◽  
Excitable Systems ◽  
Major Application ◽  
The Impact

A major application of potentiometric dyes has been the multisite optical recording of electrical activity in excitable systems. After being championed by L.B. Cohen and his colleagues for the past 20 years, the impact of this technology is rapidly being felt and is spreading to an increasing number of neuroscience laboratories. A second class of experiments involves using dyes to image membrane potential distributions in single cells by digital imaging microscopy - a major focus of this lab. These studies usually do not require the temporal resolution of multisite optical recording, being primarily focussed on slow cell biological processes, and therefore can achieve much higher spatial resolution. We have developed 2 methods for quantitative imaging of membrane potential. One method uses dual wavelength imaging of membrane-staining dyes and the other uses quantitative 3D imaging of a fluorescent lipophilic cation; the dyes used in each case were synthesized for this purpose in this laboratory.

Challenges of Fear Conditioning Research in the Age of RDoC

2017 ◽  
Vol 225 (3) ◽  
pp. 189-199 ◽  
Author(s):  
Tina B. Lonsdorf ◽  
Jan Richter
Keyword(s):  
Fear Conditioning ◽  
Clinical Diagnosis ◽  
Research Domain Criteria ◽  
Major Focus ◽  
The Future ◽  
Definition Of ◽  
Methodological Considerations ◽  
Research Domain

Abstract. As the criticism of the definition of the phenotype (i.e., clinical diagnosis) represents the major focus of the Research Domain Criteria (RDoC) initiative, it is somewhat surprising that discussions have not yet focused more on specific conceptual and procedural considerations of the suggested RDoC constructs, sub-constructs, and associated paradigms. We argue that we need more precise thinking as well as a conceptual and methodological discussion of RDoC domains and constructs, their interrelationships as well as their experimental operationalization and nomenclature. The present work is intended to start such a debate using fear conditioning as an example. Thereby, we aim to provide thought-provoking impulses on the role of fear conditioning in the age of RDoC as well as conceptual and methodological considerations and suggestions to guide RDoC-based fear conditioning research in the future.

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