BIOL 4340 Written Assignment 4 on Protein Trafficking **** SUBMIT ON D2L******

BIOL 4340 Written Assignment 4 on Protein Trafficking

**** SUBMIT ON D2L******

DUE Friday 3/29 [Good Friday, no classes]

Provide enough detail to complete 2 – 3 pages double spaced, which includes the figure that you find and discuss from current literature. Cite your resources.

Part 1:

Having made it through Cell Biology thus far, you now know enough about cells and their molecular mechanisms. There are approximately 10,000 proteins in a typical cell that are synthesized through different routes of intracellular protein trafficking. Each of you will be given a different protein and its final location in the cell.

Student (B ID)

Protein

Location

2337034

Uric Acid oxidase

Peroxisome

2417607

Na+/K+ pump

Outer cell membrane (Transmembrane protein)

2527650

S2 subunit of ribosomal protein

Assembled in nucleolus

2528223

Protein kinase C (PKC)

Cell membrane

2555892

Acid lipase

Lysosome

2568253

B-hexoaminidase

Lysosome

2582995

collagen

Found extracellularly

2587909

TOC complex (translocon)

Outer chloroplast membrane

2596579

L10a ribosomal protein

Found in cytosol as part of ribsosome

2599607

Potassium channel

Outer cell membrane (Transmembrane protein)

2615172

O-GlcNAc transferase

Golgi

2617058

RPOA alpha subunit in RNA polymerase

Nucleus

2645370

Glucosidase

Endoplasmic reticulum membrane

2645658

Cadherin

Found on outside cell membrane

2652975

Transferrin

Extracellular

2656082

TFII B protein

Found in nucleus

2657153

CD8 protein

Outer cell membrane

2660300

Fumerase

Mitochondria (Matrix)

2666106

Nuclear pore protein

Nucleus outer membrane

2667190

Rhodopsin

Outer Cell membrane

2667514

Catalase

Peroxisome

2667563

Succinyl CoA synthetase

Mitochondria (matrix)

2667657

RuBisCO

Chloroplast stroma

2667839

Succinate dehydrogenase

Mitochondria (inner membrane

2668018

Mannosidase

Endoplasmic reticulum membrane

2669625

Monoamine oxidase

Mitochondrial outer membrane

2705924

Signal peptidase

Endoplasmic reticulum

2712077

Xanthine oxidase

Cytosol

2712349

Acetyl CoA oxidase

Peroxisome

2733165

Adenylate cyclase

Outer cell membrane (cytosolic)

2738054

Galactose transferase

Golgi membrane

2742051

ATP synthase

Mitochondria (inner membrane)

2742172

Citrate synthase

Mitochondria matrix

2744256

Acetoacetyl-CoA synthase

Cytosol

2744828

Arp2/3 complex

Cytoskeleton

2744979

Aquaporin

Outer cell membrane (Transmembrane protein)

Part A:

Starting from the mRNA that is produced and released into the cytosol, describe in detail:

how your protein is translated and where this occurs.

how your protein is being processed and where

how it is being transported or further processed until it reaches its final destination.

Depending on your protein, many will have very different routes that they follow. This can be done by focusing in detail the more complex steps;

What mode(s) of protein trafficking occurs (translocation, gated transport or vesicular transport)?

Is your protein glycosylated (and where does that happen)?

Does it have disulfide bonds?

If it goes to the nucleus, what size is the protein?

If it simply stays in cytosol, then you will need to provide more detail about its transcription and translation than given in class (like about where each of the intermediate steps, like post transcriptional or post translational modifications, occur).

If it goes to several organelles, just focus detail on one part of the process.

If you are having trouble with this assignment, contact me. However, do your best at trying on your own first (for at least like an hour) so a meaningful discussion can occur.

Part B:

Look up a figure from primary literature (look under Pubmed) related to your protein. This figure should not be a summary diagram such as ones found in textbooks. Instead, it should be data (graphs, charts, diagrams, etc) relating to or including the protein itself (not the gene, either). If the figure is really large, you can just focus on 1-2 panels. Interpret the figure and its results.

For example, in the figure below; Int. J. Mol. Sci. 2019, 20, 5039. This represents a western blot to quantify the amount of Glucose-6-Phophatase (G6P) in the intestine as compared to the liver. The Ponceau at the bottom shows the same amount of protein was present in each lane meaning equal loading. The western blot itself is shown in B (Above it is a graphical representation of three determinations). The graph to the left and three lanes below are from the liver. The graph to the right and remaining lanes below are from the intestine. Of the three species, human intestine has the highest levels of G6P.

.