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Bioinformatics Strategies For The Analysis Articles & Analysis: Older
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The advent of next-generation sequencing (NGS) has revolutionized the field of microbiome research, particularly through the analysis of 16S rRNA gene sequencing. This technique allows for a comprehensive understanding of microbial communities, providing insights into their composition and functional potential. This article outlines best practices for the bioinformatics analysis of 16S rRNA ...
Navigating the Path from Wet Lab to Dry Lab The high-throughput sequencing of pathogens necessitates a two-fold process: wet lab experimentation and subsequent bioinformatics analysis. Wet lab endeavors encompass sample pretreatment, nucleic acid extraction, library construction, and ultimately, sequencing. Meanwhile, dry lab bioinformatics ...
When a ribosome is affixed to the polypeptide (protein) it is making, the ribosome-nascent chain complex (RNC) is the compilation of molecules that make up the ribosome. One of several methods can be used to halt the synthesis of the nascent polypeptide. RNCs are made and purified in labs to study the dynamics, biochemistry, folding, and interactions that the ribosome and proteins undergoing ...
What is sequencing depth and coverage? Sequencing Depth Sequencing depth is the ratio of the total number of bases (bp) obtained by sequencing to the genome size, which is one of the indicators to evaluate the sequencing volume. There is a positive correlation between sequencing depth and genome coverage, and the error rate or false positive results from sequencing decreases as the sequencing ...
Collagen, as one of the most abundant proteins in the human body, plays a key role in maintaining the integrity and function of tissue structures. With the development of bioengineering technology, recombinant human collagen (rhCollagen) produced by recombinant DNA technology has been widely applied in various fields such as medicine, cosmetics, and tissue engineering. Therefore, qualitative ...
Biopharmaceuticals and personalized medicine are hot fields in the development of the pharmaceutical industry today. Proteins, peptides, and antibodies are important molecules in the body and are important objects of research in biopharmaceuticals and personalized medicine. With the continuous advancement of protein, peptide, and antibody sequencing technology, they are playing an increasingly ...
Antibodies are an essential part of our immune system, capable of recognizing foreign molecules (antigens) and helping to eliminate them. Antibodies have a high degree of target specificity, affinity, and safety, and have been widely used in the treatment, diagnosis, and prevention of many major diseases. They are currently a focus in new drug development. The design of antibody drugs is a ...
Introduction to Variant Analysis Rare DNA changes within a population of cells are the first manifestations of mutations, which are the fuel for evolution. The research of genomic variation between species and individual organisms has been revolutionized by next-generation sequencing (NGS) technologies. Variant detection and analysis refer to the sequencing and difference analysis of a genome ...
Oxford Nanopore Technologies (ONT) sequencing has witnessed significant progress in recent years, becoming a key player in the genomics field. As the technology matures, so does the bioinformatics analysis of ONT data. Researchers have been diligently developing specialized tools and algorithms to better utilize the unique characteristics of ONT data, such as long read lengths and ionic current ...
Methods for detecting RNA modifications Currently, most methods used to detect RNA modifications fall into three categories: high-throughput whole-transcriptome sequencing technologies, mass spectrometry methods, and bioinformatics analysis. While the advent of next-generation sequencing provides a wealth of sequence information in a single run, it requires ...
Small RNA sequencing, an example of targeted sequencing, is a powerful method for small RNA species profiling and functional genomic analysis. Here, we present the guidelines for bioinformatics analysis of small RNA sequencing. ...
CD Genomics is a world-leading genomics services company that continues to innovate in high throughput sequencing services for the genomics industry, as well as genotyping, bioinformatics, microarrays, and more. The company has recently launched TCR-seq, a powerful service that enables rapid and efficient analysis of T-cell receptor (TCR) diversity and clonality, providing critical support for ...
Next-generation sequencing (NGS), which makes millions to billions of sequence reads at a fast rate, has greatly sped up genomics research. At the moment, Illumina, Ion Torrent/Life Technologies, 454/Roche, Pacific Bioscience, Nanopore, and GenapSys are all NGS platforms that can be used. They can produce reads of 100–10,000 bp in length, enabling sufficient coverage of the genome at a ...
Viral metagenomics is the study of viruses in environmental and biological samples by utilizing next generation sequencing that generates very large data sets. Viral metagenomics analyzes viral sequences to deduce the impact of viruses on the environment of human health. Unlike amplicon sequencing, metagenomics obtains and investigates genetic material directly from environmental samples, which ...
The raw data obtained by sequencing will be used for bioinformatics analysis. The metatranscriptomics library preparation process is shown in figure 2. ...
16S/18S/ITS amplicon sequencing has now been a well-established method. Due to its low cost, shorter cycle and low quality requirement of the sample, 16S/18S/ITS amplicon sequencing is widely used in the study of microorganisms. 16S/18S/ITS amplicon sequencing reveals the species of microorganisms in environmental samples and their differences, relative abundance, population structure and ...
Microorganisms widely exist in nature and are closely related to human life and production. They are generally divided into fungi, actinomycetes, bacteria, spirulina, rickettsia, chlamydia, mycoplasma and viruses. Microbial whole genome sequencing is an important tool for mapping genomes of novel organisms, finishing genomes of known organisms, or comparing genomes across multiple samples. ...
This article provides a brief introduction to good practices for the bioinformatics analysis of 16S rRNA sequencing by NGS (next-generation sequencing). The bioinformatics pipeline involves two main stages: the preprocessing of data (quality control) and quantification (including taxonomic profiling and predictive metagenomics profiling). Preprocessing to eliminate uninformative data Removal of ...
Viral metagenomics is the study of viruses in environmental and biological samples by utilizing next generation sequencing that generates very large data sets. Viral metagenomics analyzes viral sequences to deduce the impact of viruses on the environment of human health. Unlike amplicon sequencing, metagenomics obtains and investigates genetic material directly from environmental samples, which ...
Bioinformatics is a discipline developed on the basis of biology, mathematics and computer science. It effectively acquires and analyzes biological data such as nucleic acid sequences and protein structures, so as to conduct comprehensive and accurate biological analysis. Bioinformatics is an extremely important tool to study the microorganisms, which are widespread and highly varied. ...