Protein synthesis trenton stouffer

50 %
50 %
Information about Protein synthesis trenton stouffer
Education

Published on February 27, 2014

Author: punxsyscience

Source: slideshare.net

Nucleus

Nucleus

Nucleus

Nucleus

Nucleus

TCAGCGTATATG AGTCGCATATAC First, RNA Polmerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

A TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AG TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGU TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUC TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCG TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGC TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCA TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAU TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAUA TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAUAU TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAUAUA TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAUAUAC TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAUAUAC TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAUAUAC TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

AGUCGCAUAUAC TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

mRNA strand AGUCGCAUAUAC TCAGCGTATATG AGTCGCATATAC First, RNA Polymerase breaks the hydrogen bonds to read for the complementary base.

DNA mRNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA mRNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA mRNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

DNA Nuclear pore Cytoplasm Nucleus Ribosome Next, the mRNA strands copied from the DNA leaves the Nucleus out the Nuclear pore so it can find a ribosome

Ribosome Large Subunit mRNA Small Subunit

mRNA Strand Codons AGUCGCAUAUAC Start Codon Stop Codon

Amino Acid AGUCGCAUAUAC Third, the tRNA molecule read the complementary bases and leaves it amino acid behind to create a poly peptide chain.

UCA AGUCGCAUAUAC Third, the tRNA molecule read the complementary bases and leaves it amino acid behind to create a poly peptide chain.

UCA GCG AGUCGCAUAUAC Third, the tRNA molecule read the complementary bases and leaves it amino acid behind to create a poly peptide chain.

GCG UAU AGUCGCAUAUAC Third, the tRNA molecule read the complementary bases and leaves it amino acid behind to create a poly peptide chain.

UAU AUG AGUCGCAUAUAC Now the tRNA hits the stop codon and quits reading the polypeptide chain.

AUG AGUCGCAUAUAC Now the tRNA hits the stop codon and quits reading the polypeptide chain.

AGUCGCAUAUAC Now the tRNA hits the stop codon and quits reading the polypeptide chain.

AGUCGCAUAUAC Finally, the tRNA reads and makes the complementary bases and leaves behind the amino acid so it can form a poly peptide chain from the peptide bonds in the proteins.

Protein Synthesis Review The first step is the RNA Primase separates the hydrogen bond from the DNA and read it so it can make a complementary mRNA strand. Second, the mRNA strands leaves the nucleus by entering the nuclear pore. Once out of the Nucleus the mRNA finds a ribosome. Third, when it is inside of the ribosome the mRNA gets read by the tRNA. Then the amino acids attach and the matching bases get copied. Then the amino acids is disposed of and a polypeptide bond is made in the amino acid and a polypeptide chain is then created to finish off Protein Synthesis.

Add a comment

Related presentations

Related pages

Calories in Protein Synthesis Protein Powder - Calories ...

Calories in Protein Synthesis Protein Powder. Find nutrition facts for Protein Synthesis Protein Powder and over 2,000,000 other foods in MyFitnessPal.com ...
Read more

Prostaglandin synthesis, metabolism, and signaling ...

Prostaglandin synthesis, metabolism, and signaling potential in the ... Murphy MJ, Stouffer ... Peak levels of proteins involved in PGE2 synthesis ...
Read more

TGF-beta promotes proliferation of cultured SMC via both ...

TGF-beta promotes proliferation of cultured SMC via both PDGF-AA ... Stouffer GA, Sarembock IJ ... ANG II- or AVP-induced increases in protein synthesis ...
Read more

More Than Bricks and Mortar: Comments on Protein and Amino ...

Integration of protein turnover and amino acid ... C. Ike, P.W.T. Willis, G.A. Stouffer, ... I. Effect of amino acid levels on protein synthesis.
Read more

Protein Synthesis Essay - Tripod.com

Protein Synthesis Essay. 8. ... Trenton, MI: 913: Indiantown, FL: 680: Newington, GA: 394: Palouse, WA: 304: Clinton, SC: 280: Crow Agency, MT: 401: Elk ...
Read more

Food service - Nestlé Professional | Nestlé Global

Nestlé’s Professional line is a range of food products for a special occasion or for extra help in the kitchen. Release your inner chef. Learn more here.
Read more