Science Matters: Turn Your Students Into a Protein

Science Matters: Turn Your Students Into a Protein. This site is great. It contains lots of other ideas for science demos and practicals.

Deep RNA sequencing has emerged as a powerful technology for transcriptome analysis. By generating massive amount of short sequence reads from a given RNA sample, one can use RNA-Seq to define and quantify patterns of gene expression and RNA processing on a genomic scale. This project will develop methods for analysis of transcriptome complexity (gene expression, RNA processing, non-coding RNA) using RNA-Seq data, and apply these methods to study transcriptome regulation and mRNA isoform…

RNA-Seq Project Available – Analysis of transcriptome complexity using deep RNA sequencing

Post-translational modification of insulin. At the top, the ribosome translates a mRNA sequence into a protein, insulin, and passes the protein through the endoplasmic reticulum, where it is cut, folded and held in shape by disulfide (-S-S-) bonds. Then the protein passes through the golgi apparatus, where it is packaged into a vesicle. In the vesicle, more parts are cut off, and it turns into mature insulin.

Post-translational modification - Wikipedia, the free encyclopedia

This product is a program that can return the DNA sequence that was used to make a given mRNA sequence. Input: mRNA nucleotides sequence Output: DNA sequence

Software that decodes the mRNA given by the user into the DNA sequence that originated it. The program applies the rules of the genetic code and uses the sequence of RNA nucleotides to discover the sequence of DNA nucleotides that was used (via tran.

Explore how a protein is made from an mRNA sequence.

Explore how a protein is made from an mRNA sequence.

During transcription, RNA will code some sequences of DNA that will not be used to make proteins. These are called introns, which will be spliced (cut out) of the new mRNA sequence. The exons will then be put back together.

During transcription, RNA will code some sequences of DNA that will not be used to make proteins. These are called introns, which will be spliced (cut out) of the new mRNA sequence. The exons will then be put back together.

Genetic code - Wikipedia, the free encyclopedia

Genetic Code chart showing the relationship between codons and amino acids.

3USS – a web server for detecting alternative 3′UTRs from RNA-seq experiments - Protein-coding genes with multiple alternative polyadenylation sites can generate mRNA 3′UTR sequences of different lengths, thereby causing the loss or gain of regulatory elements, which can affect stability, localization and translation efficiency. 3USS is a web-server developed with the aim of giving experimentalists the possibility to automatically identify alternative 3′UTRs...

Protein-coding genes with multiple alternative polyadenylation sites can generate mRNA sequences of different lengths, thereby causing the loss or gain of

BioVLAB-MMIA-NGS – MicroRNA-mRNA Integrated Analysis using High Throughput Sequencing Data

It is now well established that microRNAs (miRNAs) play a critical role in regulating gene expression in a sequence specific manner and genome-wide efforts are

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