1- S-Nitrosylation of NSF Controls Membrane Trafficking
2-TSH, The Bone Suppressing Hormone
3-The Double Life of Ribosomal Proteins
4-R2D2 Leads the Silencing Trigger to mRNA's Death Star
5-  Targeting Survival: Integration Site Selection by Retroviruses and LTR-Retrotransposons
6-Nitric Oxide Regulates Exocytosis by S-Nitrosylation of N-ethylmaleimide-Sensitive Factor
7-TSH Is a Negative Regulator of Skeletal Remodeling
8-F3/Contactin Acts as a Functional Ligand for Notch during Oligodendrocyte Maturation
9-  Homeodomain Interacting Protein Kinase 2 Promotes Apoptosis by Downregulating the Transcriptional Corepressor CtBP
10-Regulated Release of L13a from the 60S Ribosomal Subunit as A Mechanism of Transcript-Specific Translational Control
11-Asymmetry in the Assembly of the RNAi Enzyme Complex
12-Functional siRNAs and miRNAs Exhibit Strand Bias
13-A ?dock, lock, and latch? Structural Model for a Staphylococcal Adhesin Binding to Fibrinogen
14-The Structure of ClpB: A Molecular Chaperone that Rescues Proteins from an Aggregated State For the refrences click the link more information in the middle right of this page .
Project Topics
There is not one cell , but many different types of cells .
Cells are like people. Look around you and you will see that everyone has their own job. Cells are the same. They all have their own job, and are therefore specialised.
The theoretical plant cell used in these pages does not exist, it is just an example I created in order to show all the elements at once.
Often, in a specialised cell, not all the elements are present, but some are numerous.
We will see that when examining some examples of cells .
What you will find here
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