Papain: A natural protease made in papaya
Papain: A natural protease made by papaya.
Background
Greetings curious readers, if you like biology and organic chemistry i got something interesting to present today. A natural compound with multiple uses and a fully mapped mechanism of action. I will render the protein as good as i can, to make it´s structure and function understandable.
Introduction
Papain is a protein with a protease function meaning that it cleaves peptide bonds at certain positions of a protein.
It has numerous industrial applications in everything from home remedies, cosmetics and toothpaste to industrial usage in meat and biotech sectors as well as the medical industry, which makes it a good enzyme to know about. Toothpastes also add bromelain from Pineapples, another protease. Papain is used with bromelain as meat tenderizers industrially, which is good I guess, if you eat meat. Papain has been studied a lot and the catalytic mechanism has been mapped in detail, which is pretty rare for enzymes in general.
It is linked to many health benefits as well as skin treatments, and the seeds is just as nutritional as the rest, if not more off course! Who doesn't like home remedies ? Check it out in on the link below.
All the molecule representations is made by me, feel free to comment if you need tips or tricks in this area. I like PyMol and mostly use this software, a python program.
Structure
Papain also called papaya proteinase 1, consists of 345 amino acids, making it a medium sized to small protein, but comes with big possibilities to use in biochemistry. It has a signal peptide, residuals 1-18, a pro-peptide, 19-133 and the mature peptide, 134-345.
Papain has two subdomains that come together to form the final protein structure looking like the illustration above. It´s active and catalytic site is located between the two domains and is highlighted in red above.
We can see that the two domains is not similar in structure, which is good to notate, since many enzymes with multiple domains can have similar subunits. Hemoglobin for example has 4 identical subunits each with oxygen binding site, but the middle heme binding site is made cooperatively by all four domains. One domain has two large alpha helices seen in blue / cyan, while the other domain have one large alpha helix and a larger beta sheet region, as seen in yellow and orange.
As I mentioned, the catalytic site is well studied and consists of a catalytic tirade which is very common for proteases. Papain is a cysteine protease, meaning that a cysteine residue is involved in performing the peptide cleaving.
Visible above is the three mechanistically important residues. Asparagine 175 orients the ring on the next visible residue, Histidine 159 to allow it to deprotonate the last catalytic residue, cysteine so it can cleave the peptide. The atom color is correct for sulfur, so cysteine is the one to the right of the histidine ring, with a yellow sulfur tip(group).
It is very heat resistant so that perfect for industrial applications, and it actually performs the best between 50-70 degrees!
Mechanism
All the mechanisms is available at https://www.ebi.ac.uk/thornton-srv/m-csa/ which is a merged data base of the old parent databases MACiE( Mechanism, Annotation, Characterization in Enzymes) and CSA(Catalytic Site Atlas) resulting in the database M-CSA( Mechanism and Catalytic Site Atlas) which is a good project, classifying enzymes by actuall known mechanisms. We are at 1000 entries and growing, which is great for the industry of biochemistry!
In step 1, the sulfur on the cysteine is a nucleophile, meaning it like positive groups(nucleus) and will attacks the carbonyl coal on the backbone of the target peptide, which has a positive dipole moment. This results in a nucleophilic addition to the target peptide.
An electron located on the double bond to the oxygen moves to the oxygen generating an oxyanion.
Next step 2 is initiated by the oxyanion initiates an elimination reaction that will cleave the peptide. As you can see above the sulfur steals the electron bound from the carbonyl coal while by help of the oxyanion which will re-generate the double bound to the same carbonyl coal. The deprotonation of cysteine, is essential generating a stronger nucleophile.
In the 3rd and last step, the histidine instead deprotonates a water molecule, and the electron attacks the same carbonyl coal as in step 1 and 2. This initiates a nucleophilic substitution, swaping the sulfur bond for the water group, regenerating the cysteine to its original state, and leaving an de-protonated carboxylic-acid terminal on the leaving peptide fragments. The peptide is now cleaved and the cysteine back to its original state, ready for additional cleaving of peptides.
This is how we believe that the full procedure of cutting a peptide by Papain at a proteins backbone. All amino acids have the same backbone atoms, N-C-C(nitrogen & carbon) and links to another amino acids and repeats, N-C-C-N-C-C-N-C-C and so on. Papain won´t cut just anywhere and is known to be specific to a hydrophobic region(water hating) residual like Leucine(nonpolar), which is logical since the part that is to be cut must be placed between the two terminals. It also have affinity towards a few specific amino acids like that should follow the hydrophobic one, Arginine and Lysine, and it won´t cut at all if a valine is on any of these three positions. In short it cuts at the three amino acids motif: Hydrophobic-AA/Arg/Lys.
The last picture, above, is a simplification of the full reaction, showing only products and reactants, no mechanisms or steps. Here it is easy to see a peptide(protein) backbone being split in two.
References:
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I gotta go buy a papaya, I'll pick up a peck of peppers while I'm at it.
Yeah you should, add some pineapple and you will be tender like Kobe-beef :)
Thanks for the support, much appreciated!
Peace
Very informative, an odd thing is that if you squeeze lemon juice on the papaya, it gets sweeter.
I appreciate your support, thank you. Upvoted.
Cool, didn´t know that, sounds delicious :)
Thanks, likewise!
I never figured out exactly why it works, my dad said it was magic. lol
hehe sounds like magic :)
You know an enterpreneur got to know about its high demand in America and started producing it from her home and now she is a CEO of an industry.
Papain served both for her health as well as wealth.
:) Nice did not hear about that! There is a lot that can be produced at home or in a lab classed renting space, with the right skills in the field of biochemistry!
One could express a varitude of expensive stuff in algae, yeast or E.coli it just about going to the bank with a good plan :)
Thanks for the nice story!
I love papaya. Interesting post. Thank you!
Yeah it is delicious :) thanks for checking it out!
Peace
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Thanks :)
Very interesting! Thank you.
Thanks for an interesting post, love papaya :)
Thanks for reading my posts :)
Excellent.... I learned yesterday that I need this in my diet to help prevent Gout. From which I am suffering today.
Ah yeah, that is true, I think we should eat a lot of fruit and nuts and seeds on a steady basis to stay healthy it seems, or we might miss something of importance :) And less meat and fast food ofc hehe
Peace & hope it works!!
Yes... I am going to start eating more Pineapple, papaya, almonds, pumpkin and sunflower seeds.... what other seeds, nuts, fruits to you recommend for high blood pressure, cholesterol, and Uris acid levels ?
Hrm chia & sesame can be used in anything, but dont eat to much of any of the seeds!
I keep green tea, turmeric, ginger in my diet I bet it helps gout and blood pressure.
I am no dietist thou, but i think it wont hurt, they should decrease inflammations, and provide anti oxidants along with many other health benefits, a good combo.
Just bought some papaya.... acquired taste.
hehe might be :) I like it thou!
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Papaja.... Good to know.! Tnx for sharing 🌸
Thanks for reading :)
Peace