Post on 04-Oct-2021
Giant posters are great visual aids to enhance educational topics. In addition to clarifying science
concepts, they can represent 2-D Models for science processes and progressions. Print out the four 8.5
x 11” sections and piece them together into one giant, eye catching poster for the classroom or other
educational displays.
This bundle includes a 4 page giant poster building resource about the Central Dogma of Genetics
- From DNA to Protein Synthesis. Copyright © 2021 Sheri Amsel • All rights reserved by author.
Permission to copy for classroom use only. Electronic distribution limited to classroom use only.
From DNA to Protein Synthesis - Giant Poster Building
©Sheri Amselwww.exploringnature.org
InsideNucleusOutside
Nucleus in Cytoplasm
RNA Retrovirusmaking DNA
mRNA
Protein
DNA
REPLICATION
TRANSCRIPTION
TRANSLATION
Ribosome
Reverse Transcription
RNA Virus Making RNA
From DNA to Protein Synthesis DNA makes messenger RNA (mRNA), which makes proteins, which makes up the structure and function of organisms. This is achieved by three processes that convert DNA’s information into protein molecules: replication, transcription and translation. (This is called the Central Dogma of Genetics.)
©Sheri Amselwww.exploringnature.org
Cell Nucleus
ReplicationReplication is really just gene-copying. Organisms must be able to exactly copy and distribute all their DNA during every cell division. When DNA is ready to multiply, the double helix unwinds and unzips. A new strand will form and bond with the complementary base pairs for each side. Here are the steps:1. There are free nucleotides floating in the cell’s cytoplasm.2. Each one contains one of the four bases, a sugar and three phosphates. The base attaches along the strand to its complementary matching base.3. Non-matching bases are pushed away.4. As all the matching bases are lined up, an enzyme binds the two sides together.5. This results in two DNA double helixes that are identical to the first.6. A new strand of DNA has been made – replicated.
Nucleotides connected by
hydrogen bond
sugar
guanine
cytocine
sugar
phosphatec c
cc
c
cc
c
c
c
g
g gg
g
g
gg
g
g
aa
a
a
a
aa
a
a
aatt
t
t
t
t
t
t
t
tt
template strand
replication fork
daughterstrand
DNApolymerase
3’ end
3’ end
3’ end
5’ end
5’ end
5’ end
3’ end
5’ end
©Sheri Amsel • www.exploringnature.org
Transcription
RNA polymerase
Sense Strand is coding DNA
mRNA
Anti-senseStrand
t
a
c
ga
a
a
a a
a
a a
t
t
t
t t
t
t
t
t
g
g
g
g
g
g
g
g
g
g
g
g
gg
g g
c
c
ccc
c
cc
c
c
c
c
u
u
u
u
u
DNA
mRNA Facts:1. Messenger RNA is similar to DNA except that the sugar in RNA is a ribose (DNA’s sugar is a deoxyribose).
2. RNA is shorter in length than DNA with only 50-1000 nucleotides (DNA can have a million).
3. Instead of the base Thyamine (T) - RNA has Uracil (U), which is complementary to Adenine (A).
1. Transcription begins with the DNA double-helix unwinding and unzipping (as in replication). 2. A strand of messenger RNA comes in, reads, and copies the section of base pairs. 3. The order of the base pairs is like a code that names amino acids for building proteins. 4. mRNA carries the code out of the nucleus. 5. Transcription is complete.
g
©Sheri Amsel • www.exploringnature.org
Translation1. When the messenger RNA (mRNA) copy of the code is finally carried out of the nucleus, it leaves through small openings called nuclear pores and enters in the cell’s cytoplasm. 2. Here the mRNA runs the code through an organelle in the cell called a ribosome. The ribo-some will do the translation.3. At the ribosome another molecule, called transfer RNA (tRNA), goes to work.4. Transfer RNA carries a three base “anticodon” at one end and an amino acid at the other end. The anticodon binds with the matching codon on the mRNA.5. In this way tRNA delivers the correct amino acid for the protein being built.6. Protein synthesis is complete.
polypeptide chainof amino acids
ribosome
cell cytoplasm
tRNA
mRNAstrand
nuclear pores
anticodon
codon
amino acid
mRNA
nucleus
ribosomes ©Sheri Amselwww.exploringnature.org
outside cell
inside cell