Topic Review
DNA Damage Response and COVID-19
COVID-19 is an infectious disease caused by the SARS-CoV-2 coronavirus and characterized by an extremely variable disease course, ranging from asymptomatic cases to severe illness. Our cells develop DNA lesions on a daily basis. These lesions can inhibit basic cellular processes, such as genome replication and transcription, and if they are not repaired properly, they could result in mutations or genome aberrations, thereby posing a threat to the cell or even to the viability of a particular organism.
  • 1.1K
  • 31 Oct 2022
Topic Review
Microbes’ Roles in Wound Healing
Normal wound healing cascade is highly dynamic and has four distinct overlapping phases which involves several cellular and molecular interactions. It is known to be one of the most complicated processes in human body. The wound healing mechanism can be interrupted due to the involvement of several diseases that eventually develop to chronic wounds such as in diabetic foot ulcers. Infection is a common problem in chronic wound cause by microbes residing on the superficial layer of the skin. It is frequently resulting in impaired wound healing and patient morbidity and mortality. Antibiotic therapy and wound dressings are the main treatments to treat infected chronic wounds. However, the presence of polymicrobial infections, formation of bacterial biofilms and antibiotics resistance are the major challenges faced by healthcare providers to kill or eliminate the microbes from the wounds. Considering all the possible factors, more studies are needed to elucidate the role of microbes as well as the selection of suitable empirical antibiotics in reducing the infections and provide optimal healing in chronic wounds.  
  • 1.1K
  • 23 Jul 2021
Topic Review
Biofilms in Space
The impacts of biofilms are well known in the medical, agricultural, commercial, and industrial spaces. It less known that biofilms are undermining many facets of space travel and that their effects need to be understood and addressed for future space missions. Biofilms can damage space crew health and spoil limited food supply. Yet, at the same time, they can benefit plant systems for food growth, nutrient development, and other biological systems that are being explored for use in space travel. Various biofilm removal techniques have been studied to mitigate the hazards posed by biofilm persistence during space travel. Because the presence of biofilms can advance or hinder humanity’s space exploration efforts, an understanding of their impacts over the duration of space flights is of paramount importance. 
  • 1.1K
  • 03 Nov 2020
Topic Review
Skeletal Sex Estimation Methods
Documented skeletal collections are essential in forensic and physical anthropology as they provide the means to develop methods for the estimation of various parameters of the biological profile of an individual such as sex, age at death, and stature.
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  • 10 Nov 2022
Topic Review
Role of minor splicing factors ZRSR1 and ZRSR2 in embryo genome activation
Minor splicing plays an important role in vertebrate development. Zrsr1 and Zrsr2 paralog genes have essential roles in alternative splicing, mainly participating in the recognition of minor (U12) introns. Mice embryos with mutations in both splicing factors stopped developing mainly between the 2- and 4-cell stages, just after zygotic gene activation. RNA-seq analysis of Zrsr1/2mu 2-cell embryos showed altered gene and isoform expression of thousands of genes enriched in essential gene ontology terms and biological pathways related to ribosome, RNA transport, spliceosome, and essential zygotic gene activation steps. Alternative splicing of both U2 and U12 intron-containing genes was altered related to cell cycle and mitotic nuclear division. Zrsr1 and Zrsr2 were also required for the conversion of mouse-induced pluripotent stem cells into 2C-like cells. Zrsr1 and Zrsr2 emerge as necessary for zygotic gene activation and the conversion of induced pluripotent stem cells into 2C-like cells.
  • 1.1K
  • 18 Jun 2020
Topic Review
Transposon
Transposons are sequences of DNA that can move around to different positions within the genome of a single cell, a process called transposition. In the process, they can cause mutations and change the amount of DNA in the genome. Transposons are also called "jumping genes" or "mobile genetic elements". Discovered by Barbara McClintock early in her career, the topic went on to be a Nobel winning work in 1983. There are a variety of mobile genetic elements, and they can be grouped based on their mechanism of transposition. Class I mobile genetic elements, or retrotransposons, move in the genome by being transcribed to RNA and then back to DNA by reverse transcriptase, while class II mobile genetic elements move directly from one position to another within the genome using a transposase to "cut and paste" them within the genome. Transposons are very useful to researchers as a means to alter DNA inside of a living organism. Transposons make up a large fraction of genome sizes which is evident through the C-values of eukaryotic species. As an example about 45% of the human genome is composed of transposons and their defunct remnants.
  • 1.1K
  • 23 Nov 2022
Topic Review
Atherosclerosis
Macrophages are key target immune cells in atherosclerosis. A hallmark of atherosclerosis is the accumulation of pro-inflammatory macrophages in coronary arteries that respond to pro-atherogenic stimuli and failure of digesting lipids that contribute to foam cell formation in atherosclerotic plaques.
  • 1.1K
  • 29 Jan 2022
Topic Review
Autothermal Thermophilic Aerobic Digestion
Pembroke JT and MP Ryan.  Autothermal thermophilic aerobic digestion (ATAD) is a microbial fermentation process characterized as a tertiary treatment of waste material carried out in jacketed reactors. Heat is generated which selects a thermoduric microbial population. The process results in a stabilised, pasteurised sludge suitable for land application as a fertiliser. The microbial population biodegrades sludge contents, are unique in terms of diversity and have biotechnological potential as enzymes and proteins associated with the microbial population are thermostable. 
  • 1.1K
  • 24 Dec 2021
Topic Review
Aspergillus
Aspergilli have been widely used in the production of organic acids, enzymes, and secondary metabolites for almost a century. Today, several GRAS (generally recognized as safe) Aspergillus species hold a central role in the field of industrial biotechnology with multiple profitable applications. Since the 1990s, research has focused on the use of Aspergillus species in the development of cell factories for the production of recombinant proteins mainly due to their natively high secretion capacity. Advances in the Aspergillus-specific molecular toolkit and combination of several engineering strategies (e.g., protease-deficient strains and fusions to carrier proteins) resulted in strains able to generate high titers of recombinant fungal proteins
  • 1.1K
  • 09 Oct 2020
Topic Review
Controlled Release Fertilizers
Controlled Release Fertilizers (CRF) can be defined as “products containing sources of water-soluble nutrients, the release of which in the soil is controlled by a coating applied to the fertilizer. However, the most significant challenge that persists is the “tailing” effect, which reduces the economic benefits in terms of maximum fertilizer utilization. The high materials cost is also deemed as a significant obstacle restraining the widespread application of CRF in agriculture.
  • 1.1K
  • 22 Feb 2021
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