Download Protein classification

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts

Extracellular matrix wikipedia , lookup

Cytosol wikipedia , lookup

G protein–coupled receptor wikipedia , lookup

Magnesium transporter wikipedia , lookup

Endomembrane system wikipedia , lookup

Protein phosphorylation wikipedia , lookup

Protein moonlighting wikipedia , lookup

Protein (nutrient) wikipedia , lookup

Signal transduction wikipedia , lookup

Circular dichroism wikipedia , lookup

Nuclear magnetic resonance spectroscopy of proteins wikipedia , lookup

Cyclol wikipedia , lookup

Intrinsically disordered proteins wikipedia , lookup

Protein wikipedia , lookup

Biosynthesis wikipedia , lookup

Protein structure prediction wikipedia , lookup

List of types of proteins wikipedia , lookup

Proteolysis wikipedia , lookup

Transcript
Protein classification
Lecture 8
Chapter 4 (end)
Definition protein classification
• Grouping of similar proteins based on
their structure, function, or size
– Globular vs filamentous vs helical
– Cataytic vs structural
– Small vs large vs very large
Protein Subunits & Domains
• A single polypeptide may have regions
along its length that fold up separately domains
• More than one polypeptide coming
together to form a protein - subunit
04_20_protein domains.jpg
04_21_Serine proteases.jpg
04_22_protein subunit.jpg
04_23_asymmetrical as.jpg
Protein - shapes
• Globular proteins - polypeptide folds tightly
together on itself - most enzymes
• Fibrous proteins - elongated structure - span
great distances - hair - keratin
–
–
–
–
Many subunits attached together
Actin & collagen
Strong & rigid (Collagen - ligaments)
Strong & flexible (elastin - skin)
04_24_complexstructure.jpg
04_26_spherical shell.jpg
Proteins linked together
•
•
•
•
Domain to domain links (same P’)
Protein to protein links (between P’s)
Covalent bonds used to stabilize
Disulfide bond most common
– Cysteine AA
– No impact of final shape, but stabilze
04_29_Disulfide bonds.jpg
Proteins Bind
• Biological properties of proteins result from
interactions with other molecules
– Antibodies, enzymes, structure, etc
•
•
•
•
Binding is always very specific
Ligand - anything that is bound by a protein
Ligand binding is by ionic bonds only
Many ionic bonds required to stabilize link matching configurations needed - specificity
04_30_selective binding.jpg
Proteins - Binding
• A ligand binds to a protein at a binding site
• A protein may have more than one binding
site
– It may bind the same ligand many times or it may
bind different ligands
• Ligands can bind to regulate the activity of
the protein
• Interior amino acids have a say in the
conformation of the molecule too.
Proteins - pair with other
molecules
• Some biologically active molecules are
a result of a very cozy relationship
– Rhodopsin & Opsin
• Retinal (a light sensing pigment) + opsin
protein
• Haem (Fe containing molecule) + globin protein
Opsin
Quic kTime™ and a
TIFF (Unc ompres sed) decompress or
are needed to see this picture.
QuickTime™ and a
TIFF (Uncompressed) decompressor
are needed to see this picture.
Sample EXAM (Quiz)
Questions
Quiz 1
(Difficulty factor [1-10] = 6)
The smallest unit of life is a(n)
(a)
DNA molecule.
(b)
cell.
(c)
organelle.
(d)
virus.
(e)
protein.
For each of the following sentences, fill in the blanks with the best word or phrase selected
from the list below. Not all words or phrases will be used; each word or phrase should be
used only once.
Cells can be very diverse: superficially, they come in various sizes, ranging from
bacterial cells such as Lactobacillus, which is a few ___ micrometer(s) __ in length,
to larger cells such as a frog’s egg, which has a diameter of about one ______
millimeter _______. Despite the diversity, cells resemble each other to an astonishing
degree in their chemistry. For example, the same twenty ____ amino acids ______
are used to make proteins. Similarly, the genetic information of all cells is stored in
their ____ DNA __________. Although _______ viruses _____ contain the same
type of molecules as cells, their inability to reproduce themselves by their own efforts
means that they are not considered living matter.
amino acids
DNA
fatty acids
meter
viruses
millimeter(s)
yeast
plants
plasma membranes
DNA differs from RNA in
(a)
the number of different bases used.
(b)
the number of phosphates between the sugars in the
sugar-phosphate backbone.
(c)
the kind of sugar found in the sugar-phosphate
backbone.
(d)
one of the purines used.
(e)
the chemical polarity of the polynucleotide chain.
Which of the following statements about the basic chemistry of
cells is TRUE?
(a) All cells contain exactly the same proteins.
(b) All proteins are constructed from the same 22 amino
acids.
(c) The genetic instructions in all cells are stored in DNA.
(d) All organisms contain the same genes.
(e) All of the above
A. What sets the limit on the size of structure that can
be seen in a light microscope?
The wavelength of light
B.
Why are tissues usually cut into thin sections
and stained before examination under a light
microscope? Most tissues are not
transparent enough to be examined directly in a light
microscope. Transparency is increased by slicing them
into thin sections, and staining shows the different
cellular structures in contrasting colors.
The most reliable feature distinguishing a eucaryotic cell from
a procaryotic cell is the
(a)
presence of a plasma membrane.
(b)
presence of a nucleus.
(c)
eucaryotic cell’s larger size.
(d)
presence of DNA.
Circle the appropriate cell type in which the listed structure or molecule can be
found. Note that the structure or molecule can be found in more than one type of
cell.
Structure or Molecule
A. DNA
animal
Cell Type
plant
bacterial
B.
nucleus
animal
plant
bacterial
C.
plasma membrane
animal
plant
bacterial
D.
chloroplast
animal
plant
bacterial
E.
cell wall
animal
plant
bacterial
F.
lysosome
animal
plant
bacterial
G.
mitochondrion
animal
plant
bacterial
H.
Golgi apparatus
animal
plant
bacterial
A.
Write out the sequence of amino acids in the
following peptide using the full names of the amino acids.
Pro–Val–Thr–Gly–Lys–Cys–Glu
proline-valine-threonine-glycine-lysine-cysteine-glutamic
acid (or glutamate)
B.
Write the same sequence using the single letter code
for amino acids. PVTGKCQ
C.
According to the conventional way of writing the
sequence of a peptide or a protein, which is the C-terminal
amino acid and which is the N-terminal amino acid in the
above peptide? C-terminal is glutamic acid (or glutamate);
N-terminal is proline.
Which of the following statements about amino acids is TRUE?
(a)
Twenty-two amino acids are commonly found in
proteins.
(b)
Most of the amino acids used in protein
biosynthesis have charged side chains.
(c)
Amino acids are often linked together to form
branched polymers.
(d)
D- and L-amino acids are found in proteins.
(e)
All amino acids contain an NH2 and a COOH
group.