Journal of Genetic Engineering and Biotechnology is devoted to rapid publication of full-length research papers that lead to significant contribution in advancing knowledge in genetic engineering and biotechnology and provide novel perspectives in this research area.
JGEB includes all major themes related The areas of interest of JGEB include but not restricted to: Journal of Genetic Engineering and Biotechnology. Submit Your Paper Enter your login details below. Username Password I forgot my password Register new account. Username Password I forgot my password. Track accepted paper Once production of your article has started, you can track the status of your article via Track Your Accepted Article. CiteScore values are based on citation counts in a given year e.
View More on Journal Insights. Your Research Data Share your research data Visualize your data. Publishing your article with us has many benefits, such as having access to a personal dashboard: This free service is available to anyone who has published and whose publication is in Scopus. Chondrocytes are typically studied in the environment where they normally reside such as the joints in hips, intervertebral disks or the ear.
Auricular elastic cartilage is a potential source for lining of luminal surfaces of implantable vascular devices, such as stents and left ventricular assist devices with the purpose to improve their biocompatibility. Auricular chondrocytes are easily accessible, harvested, and isolated, and they have been shown to provide a strong adherent cell lining for left ventricular assist devices.
Rosenstrauch have shown that it is possible to genetically engineer auricular chondrocytes to produce antithrombogenic factors. Thus, implantable vascular devices, such as coronary stents covered with genetically engineered auricular chondrocytes might lower restenosis rates and provide a long-lasting biocompatible prosthesis. In this paper, to optimize the process of lining of artificial surfaces with auricular cartilage, we devise a mathematical model that describes the rate of cell division and growth of extracellular matrix as a function of the initial cell count, proximity to other cells, and the type of artificial surface.
Our mathematical model was experimentally tested using two different cell cultures auricular chondrocytes and dermal fibroblasts seeded on different artificial surfaces tc-treated polystyrene and aluminum foil.
Excellent agreement between the model and experiment was obtained. This mathematical model can be used to, for example, determine the optimum number of initially seaded cells that would provide fastest coverage of a given artificial surface. Use of autologous auricular chondrocytes for lining artificial surfaces: Adaptation of model genetically engineered microorganisms to lake water: Impact of a genetically engineered bacterium with enhanced alkaline phosphatase activity on marine phytoplankton communities.
An indigenous marine Achromobacter sp. Secondary effects of the GEM on the phytoplankton communi Engineering of the aspartate family biosynthetic pathway in barley Hordeum vulgare L. Fortifying plants with the essential amino acids lysine and methionine to improve nutritional quality. Synthetic oligonucleotide tails inhibit in vitro and in vivo translation of SP6 transcripts of maize zein cDNA clones. Metabolic engineering of the plant primary—secondary metabolism interface.
Plants synthesize a myriad of secondary metabolites SMs that are derived from central or primary metabolism. While these so-called natural products have been targets for plant metabolic engineering attempts for many years, the immense While these so-called natural products have been targets for plant metabolic engineering attempts for many years, the immense value of manipulating the interface between committed steps in secondary metabolism pathways and those in primary metabolism pathways has only recently emerged.
In this review we discuss a few of the major issues that should be taken into consideration in attempts to engineer the primary to secondary metabolism interface.
The availability of carbon, nitrogen and sulfur resources will have a major impact on the production of specific classes of primary metabolites PMs and consequently on the levels and composition of SMs derived from these PMs. Recent studies have shown that transcription factors associated with the synthesis of a given class of SMs coactivate the expression of genes encoding metabolic enzymes associated with primary pathways that supply precursors to these SMs.
In addition, metabolic engineering approaches, which alter post-transcriptional feedback and feedforward regulatory mechanisms of the primary-secondary metabolism interface, have been highly fruitful in Taylormade enhancements of the content of specific beneficial SMs. Lastly, the evolution of pathways of secondary metabolism from pathways of primary metabolism highlights the need to consider cases in which common enzymatic reactions and pathways take place between the two.
Taken together, the available information indicates a supercoordinated gene expression networks connecting primary and secondary metabolism in plants, which should be taken into consideration in future attempts to metabolically engineer the various classes of plant SMs. A printed nanolitre-scale bacterial sensor array. Ads help cover our server costs. Remember me on this computer. Enter the email address you signed up with and we'll email you a reset link. Click here to sign up.
Genetic engineering is generally considered to require a change in or alteration of a genome rather than simply switching the entire genetic code of one individual with another. Although not fitting the classic definition of “genetic engineering,” cloning is a form of genetic biotechnology, which is a broader category.
Genetic Engineering research papers can explicate the scientific, ethical or biological aspects of genetically modifying crops and food, humans and/or other animals. If you need research on genetic engineering, Paper Masters provides the resources and academic foundation for your projects in any area of science.
- Genetic Engineering is an idea that we can ponder on quiet days. The creation of altered DNA is an enticing aspect that can greatly influence the average human life. The research of genetic engineering is an ongoing exploration that may never end. I am a supporter of a genetic engineering. Genetic Engineering Research Paper Words | 7 Pages. Genetic engineering Explain how this technology works. Genetic engineering otherwise called genetic modification and can basically be described as the ‘direct manipulation of an organism’s genome’ which is the complete set of genetic material of an animal, plant or other living thing.
Journal of Genetic Engineering and Biotechnology is devoted to rapid publication of full-length research papers that lead to significant contribution in advancing knowledge in genetic engineering and biotechnology and provide novel perspectives in this research area. JGEB includes all major themes related to genetic engineering and recombinant . Genetic engineering otherwise called genetic modification and can basically be described as the ‘direct manipulation of an organism’s genome’ which is the complete set of genetic material of an animal, plant or other living thing.