Transposons/transposable elements, are genomic regions or jumping genes, the process is transposition.Dory wrote:Oh right, old Barbaria Mcklinglock (sp?) figured that shit up with corn, IIRC. Something with their melanin, or colour. I don't remember exactly how she did it. I just remember it being termed "transposable elements". Not "endegonous transposition"...kinda confused me.Endo = inside , genous = originating, transposition = or genetic transposition, a mutation in which a chromosomal segment is transferred to a new position on the same or another chromosome.
A little logical step from secondary structures in RNA such as tRNA , Dory, if complementary nucleotides in a single strand can bind together , producing loops, the same chemistry can hold two single strands of RNA together, it is base pairing again, of course, just to provide evidential support to that logical extrapolation, I post thiswtf, RNA can be double-stranded? Since when???Basically Dory, RNAi goes like this, say you introduce double stranded RNA into the cell
http://en.wikipedia.org/wiki/Double-str ... NA_viruses
Double-stranded (ds) RNA viruses are a diverse group of viruses that vary widely in host range (humans, animals, plants, fungi, and bacteria), genome segment number (one to twelve), and virion organization (T-number, capsid layers, or turrets). Members of this group include the rotaviruses, known globally as a common cause of gastroenteritis in young children, and bluetongue virus, an economically important pathogen of cattle and sheep.
Viruses with dsRNA genomes are currently grouped into six families: Reoviridae, Birnaviridae, Totiviridae, Partitiviridae, Hypoviridae, and Cystoviridae. Of these six families, the Reoviridae is the largest and most diverse in terms of host range.
In recent years virus particle assembly, virus-cell interactions, and viral pathogenesis, approaches for the development of novel antiviral strategies and/or agents can be designed.[1]
This is the pathway for dsRNA to begin to cleave mRNA... if there are antisense RNA transcripts, they bind to mRNA and trigger cleavage in just one enzyme mediated step, therefore it is also possible to silence gene expression by just introducing/ inducing the production of the antisense nucleic acid sequences. I've worked with antisense sequence design in the past, and RNAi design for a particular gene, and can show you how to do that for any given gene.So it has to go through all this complex stages to become a sort of molecular knife that cleaves mRNA's?an enzyme called Dicer slices it up into shorter fragments, this then binds to an enzyme complex called the RNA Induced Silencing Complex, or RISC, which then separates the fragments into a single stranded, bound version, the complex can then bind to complementary mRNA and cleave it, thus blocking expression of the gene which produced the mRNA.
PS - sense sequence - the sequence on the mRNA that produces a protein, antisense sequence is the one complementary to that.
sense + antisense = double stranded entity.
