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Microbial engineering biotechnologies.

08:00 EDT 13th May 2019 | BioPortfolio

Summary of "Microbial engineering biotechnologies."

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Name: Biotechnology advances
ISSN: 1873-1899
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PubMed Articles [5170 Associated PubMed Articles listed on BioPortfolio]

FLYCOP: metabolic modeling-based analysis and engineering microbial communities.

Synthetic microbial communities begin to be considered as promising multicellular biocatalysts having a large potential to replace engineered single strains in biotechnology applications, in pharmaceu...

Engineering microbial membranes to increase stress tolerance of industrial strains.

The microbial membrane serves as a biological barrier that separates the interior of cells from the external environment, thus playing an important role in tolerance to stress conditions during indust...

Enhancing Yeast Alcoholic Fermentations.

The production of ethanol by yeast fermentation represents the largest of all global biotechnologies. Consequently, the yeast Saccharomyces cerevisiae is the world's premier industrial microorganism, ...

Bioengineering of microbial transglutaminase for biomedical applications.

Microbial transglutaminase (mTGase) is commonly known in the food industry as meat glue due to its incredible ability to "glue" meat proteins together. Aside from being widely exploited in the meat pr...

Incorporating microbial community data with machine learning techniques to predict feed substrates in microbial fuel cells.

The complicated interactions that occur in mixed-species biotechnologies, including biosensors, hinder chemical detection specificity. This lack of specificity limits applications in which biosensors ...

Clinical Trials [446 Associated Clinical Trials listed on BioPortfolio]

Use of Mesenchymal Stem Cells for Alveolar Bone Tissue Engineering for Cleft Lip and Palate Patients

The aim of this study is to perform the bone tissue engineering to reconstruct the alveolar bone defect in cleft lip and palate patients using mesenchymal stem cells from deciduous dental ...

Tissue Engineering for Hair Follicle Regeneration

This study is to try to maintain cultured dermal papilla cells in spherical structure in vitro before transplanting into dermis in vivo. Also, this study is aimed in clarifying actual mech...

Tissue Engineering Conjunctiva for the Treatment of Pterygium and Atretoblepharia

The purpose of this study is to determine whether tissue engineering conjunctiva is effective in the treatment of pterygium and atretoblepharia.

Effect of Microbial Exposure on Health, Particularly Immune System

The effect of microbial exposure on healthy human subjects will be investigated. Changes in cytokine and IgE and vaccine response will be measured. The hypothesis is that microbial exposur...

Diagnosis of Septicaemia by Detection of Microbial DNA in Blood in Severe Infections

The primary purpose is to improve and quicken the microbial diagnosis in severe infections, since only one third of the cases are documented by blood cultures and adequate anti-infective t...

Medical and Biotech [MESH] Definitions

Methods and techniques used to modify or select cells and develop conditions for growing cells for biosynthetic production of molecules (METABOLIC ENGINEERING), for generation of tissue structures and organs in vitro (TISSUE ENGINEERING), or for other BIOENGINEERING research objectives.

Application of principles and practices of engineering science to the transformation, design, and manufacture of substances on an industrial scale.

A branch of engineering concerned with the design, construction, and maintenance of environmental facilities conducive to public health, such as water supply and waste disposal.

Application of principles and practices of engineering science to biomedical research and health care.

Enumeration by direct count of viable, isolated bacterial, archaeal, or fungal CELLS or SPORES capable of growth on solid CULTURE MEDIA. Each colony (i.e., microbial colony-forming unit) represents the progeny of a single cell in the original inoculum. The method is used routinely by environmental microbiologists for quantifying organisms in AIR; FOOD; and WATER; by clinicians for measuring patients' microbial load; and in antimicrobial drug testing.

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