ChIP-Seq Sequencing

16s sequencing, chipseq, RNAseq, metagenome, genome, ribosomal with MR DNA Chromatin immunoprecipitation (ChIP) is a powerful method for investigating interactions between specific proteins, genomic DNA, and RNA. Recent advancement in Next Generation Sequencing (NGS) technique allows us to sequence the ChIP DNA with high resolution, enabling us to perform unbiased and genome-wide mapping of epigenetic […]

Whole-Transcriptome Sequencing (RNA-Seq)

Whole transcriptome analysis RNAseq is important to understand genome-wide differences in RNA expression which allows Scientists to understand how altered genetic variants changes in gene expression. RNA-seq method can help to sequence different types of RNAs such as total RNA, small RNA (miRNA, tRNA and rRNA). The RNA-seq can contribute to understand the complexity of […]

Genome Sequencing Service

  Genome sequencing is described as the process of determining the order of the nucleotide bases within a certain length strand of DNA. You can sequence a short piece, the whole genome, or parts of the genome (exomes – parts of the genome that contain genes). The knowledgeable team at MR DNA Lab (also known […]

Microbial Communities: Microbiome, Metagenome, Microbiota

What consists of microbial communities analysis? Microbiome and microbiota explain the collective genomes of the microorganisms that inhabit an environmental niche or the microorganisms themselves. Microbiota are the microorganisms present within a particular environment. The approach to describe microbial diversity relies on analyzing the gene diversity 16S ribosomal RNA (16S rRNA) through next-generation sequencing. The […]

Next-Generation Sequencing Services (DNA)

Scientists are now able to elucidate the microbiome of human diseases, agricultural and other natural, environments. Especially at MR DNA Lab, scientists are dedicated to microbiome research. Their method development has opened doors to research around the world. This initiative is one component of the MR DNA program and constitutes a major NIH effort to […]

Organic Molecules: Nucleic Acids (RNA and DNA)

Organic molecules are classified in four classes: carbs, lipids, proteins, and last but not least nucleic acids. There are two principle nucleic acids, ribonucleic acid (RNA) and deoxyribonucleic acid (DNA). DNA is a double polymer of nucleotides, whereas RNA is only once strand. RNA strands are substantially shorter than DNA. The reason why DNA strands […]

DNA Gets Social

With over 200 million users, Twitter has emerged as a viable medium for determining influence in many fields – including the field of science. Scientists from all over the world are taking to Twitter to spread the ideas and information to followers. Social media teams, like the one at MR DNA Lab, have added Twitter […]

Understanding the 454 Method

A DNA strand is prepared by cutting the sample into small fragmented pieces (Fig 1). Attached to the ends of these fragments are oligonucleotide adaptors (Fig 2). These allow the fragments to individually attach to primer-coated beads. The goal is to have one fragment per bead. Amplification essentially copies fragments on each bead (Fig 3). […]

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