Detailed Introduction to Protease

What is the role of protease?

One of the main functions of proteases is to process proteins. Proteins in the body are difficult to digest and do not contain enzymes. Other types of proteases are involved in regulating the activities of blood clotting cells. These enzymes are also called proteolytic enzymes.

Proteins are held together by peptide bonds. Long-chain amino acids, small pieces of protein are called peptides, large pieces of protein are called peptides, and enzymes that break down peptides are called proteases. Proteases are types of proteins that accelerate degradation. γpeptidase cleaves terminal amino acids to break down peptide bonds and release amino acids produced due to residual protein.

What is protease?

Proteasomes are ubiquitous in eukaryotes and archaea, and a giant protein complex that also exists in some prokaryotes. In eukaryotes, the proteasome is located in the nucleus and cytoplasm. The main role of the proteasome is to degrade proteins that are not needed or damaged by the cell. This role is achieved by chemical reactions that break peptide bonds. Enzymes that can perform this role are called proteases.

The proteasome is the main mechanism used by cells to regulate specific proteins and remove misfolded proteins. After proteasome degradation, the protein is cleaved into peptides about 7-8 amino acids long; these peptides can be further degraded into single amino acid molecules, and then used to synthesize new proteins. The protein that needs to be degraded is first labeled (ie attached) by a small protein called ubiquitin. This labeling reaction is catalyzed by ubiquitin ligase. Once a protein is labeled with an ubiquitin molecule, it will trigger other ligases to add more ubiquitin molecules; this forms a “polyubiquitin chain” that can bind to the proteasome, thereby bringing the proteasome here. A labeled protein begins its degradation process.

From the structural point of view, the proteasome is a barrel-shaped complex, including a “core” composed of four stacked rings. The core is hollow to form a cavity. Among them, each ring is composed of seven protein molecules. The middle two loops each consist of seven β subunits and contain six active sites for proteases. These sites are located on the inner surface of the loop, so the protein must enter the “cavity” of the proteasome to be degraded.

The two outer rings each contain seven α subunits, which can function as a “gate” and are the only way for proteins to enter the “cavity”. These alpha subunits, or “gates”, are controlled by the “cap”-like structures (ie, regulatory particles) attached to them; the regulatory particles can recognize the polyubiquitin chain tag attached to the protein and initiate the degradation process. The entire system including ubiquitination and proteasome degradation is called the “ubiquitin-proteasome system”. The proteasome degradation pathway is essential for many cell processes, including the cell cycle, regulation of gene expression, and oxidative stress.

The winning themes of the Nobel Prize in Chemistry in 2004 were the importance of protein enzymolysis in cells and the role of ubiquitin in the enzymatic pathway. The three winners are Aaron Chehanovo, Avram Hershko and Owen Rose.

What is biological protease?

Biological protease is an abbreviation of enzyme that hydrolyzes protein peptide bond. This substance is generally widely distributed in plant stems and leaves, animal organs, microorganisms and fruits. The protease can accelerate the digestion of food after entering the human body, and has a relatively good help for indigestion that occurs in the human body. Protease also has a better recovery effect for some other types of diseases.

What is the role of pepsin?

Pepsin is a digestive protease whose main function is to break down the protein in food into small peptide fragments. Pepsin is mainly used to treat indigestion caused by eating too much protein food, or recovery period after serious illness, impaired digestion and chronic atrophic gastritis, as well as impaired digestive function of gastric cancer, and protease deficiency caused by pernicious anemia.

Spot Trading Vs Futures Trading: What’s the Difference?

Spot Trading

Spot trading is based on on-the-spot price and decision making. It happens on the current market price of a currency or digital asset available to be bought/sold for immediate settlement. In a nutshell, the evaluation of the asset takes place on the current price, i.e., no past or future speculation involved. In spot trading, the ownership of the asset is transferred to the buyer from the seller immediately as per the contract terms.

Risk Factor: Spot trading is what-you-see-what-you-get kind of trading choices. Hence, there is no risk as the buyer and seller are informed of the outcomes.

The above image from PCEX Member (Panaesha Capital Traders) narrates the spot price of BCH (Bitcoin Cash), DASH (Dash), BTC(Bitcoin), ETH (Ethereum), LTC (Litecoin), XMR (Monero), and other top performing cryptocurrencies (in the INR, USD, USDT, and C2USD market). PCEX Member is a user-friendly, comprehensive, and secure cryptocurrency trading platform in India.

If a buyer wants to purchase a few BCH, he or she has to spend an equivalent value of fiat or regular currency. At the time of taking the above snap, the seller has quoted the best bid price for BCH as INR 38,120 and he or she has 1.8 coins to sell out. The best ask price or the highest price quoted by any buyer was INR 38,129. So, the buyer willing to purchase the asset has to pay (38, 129×1.8), i.e., INR 68,632.20.

The highest and lowest spot price of any asset is made available by the exchange platform to help investors with their decision making.

Futures Trading

Futures trading is based on a future price of the digital asset, and the decision to go into such a trading agreement is purely ruled by one’s speculation. The buyer and seller entering into the futures contract have an opposite view regarding the performance of the asset in question and that serves the match-making ground.

Banking on the Futures price on the expiry date, the buyer accepts the contract and deposits token money commonly referred to as margin rate into the exchange to buy a certain lot size of the given asset. This token money is defined by the exchange i.e. Panaesha Capital Exchange. The deposit is accepted in any Fiat currency (any currency that is issued by a government) including USD. The exchange validates the claim to enter a futures contract by examining the account of the prospective buyer.

The spot price has an impact on the futures price and both go in tandem generally. Once the contract is initiated, the token money is locked with the exchange.

The current price of the asset on the date of expiry or termination of the contract defines the profits and losses of the investors – buyer and seller. If it goes beyond the price what was at the time of contract making, the buyer benefits and sellers loses. On the drop of the asset price, the buyer loses and the seller makes the equivalent profit.

Risk Factor: A substantial risk is associated here as neither of the parties involved in the trade knows the future performance of the asset. They are just betting on their views and logic, which may prove right or wrong.

What if the speculation of the buyer of a futures contract proves wrong and he or she incurs a loss beyond the token money submitted? As the asset value of the purchased token size, based on the futures contract price, dips below 75%, the buyer receives an alert from the exchange regarding the same. The exchange asks for the payment to keep the contract active. If the user doesn’t honor the payment request, the contract is squared off, and the buyer gets automatically removed from the contract.

How does PCEX Member or any other asset exchange platform make a profit out of spot or futures trading? It’s obvious that no business or platform can survive without profit. Whether traditional or virtual currency-based exchange – in both the scenarios, the exchange platform charges a commission for the trade from buyer and seller. Normally, the virtual currency exchange platform maintains low commission. Such a low commission rate provides an edge to the digital exchange platform over the traditional ones. New asset owners also pay a fee for listing their assets on the platform. Exchanges also raise funds through IEOs (Initial Exchange Offerings), STOs (Security Token Offerings), and ICOs (Initial Coin Offerings).

Can Blockchain Technology Effect The Genomics Industry?

Most of the time, Blockchain technology is considered with cryptocurrencies like bitcoins, Litecoin, Ethereum, EOS, etc. However, that’s not the case today!In fact, the blockchain has become a different industry with an aim to protect and secure all types of data. very different. The past few years were really very exciting for traders with blockchain technology all over the world.Many companies worldwide in different industries integrated their data with blockchain, which in return gave them better results before their expectations.However, one industry that gained significant adhesion by implementing blockchain technology is the Genomic Data Industry. Yes, the industry that keeps the account of our DNA! Not only ours, i.e, humans, but all the species over the world. Many of the intellectual minds in our societies would think it okay with the technological progression; some would say that governments are preparing to control us, our minds.While many of you would be reading for the first time about the genomic industry!It is true that no technology comes without impacts or effects. But, is the storing of DNA data in the blockchain is correct or not is still an unanswered question.Therefore, I being in the IT and software industry decided to write this blog, “Can Blockchain Technology Effect The Genomics Industry?”NOTE: There are chances you might not conclude anything, but the confluence of blockchain & genome is a must-read.Let’s start and see the height of our medical researchers and software world!

Genomics And The Growth Of Technology

The demand of blockchain technology is high in every industry. And the genomic industry can’t neglect the fact that medical science and healthcare data industry need some secure place to store the results of their studies.That shows the importance of blockchain and its nature to store data.Conversely, the main question is why there is a need to store DNA data? If we go by the reports, the global Genomics industry by 2022 can reach to $24 billion market size that was $15 billion in 2017.Medical research on breaking the DNA code, programming DNA to make superhumans, and understanding our existence for betterment can be some reason that gave a sudden boom and heightened the interest in Genomes.As a result, many start-up companies are entering this market and are investing millions of money!23andMe (A genetic service provider) is one top-level genome testing company in USA with its major focus on collecting, analyzing, experimenting and synthesizing human genomic data.Roughly around two years ago, the company via Sequoia Capital raised a whopping amount of $250 million investment in the genomic industry.This much amount of money in DNA is enough to assume that in the coming ten years, we will see some historic breakthrough. Let’s face it as a positive side in the medical study!But, a large mob of people is against this DNA data collection and DNA study. Following which many genetic service provider companies are facing problems!

Data Policies & DNA Testing Companies

23andMe has been facing a backlash over its absolute data privacy policies.In June 2018, The Federal Trade Commission announced its investigation on many well-known DNA testing companies. The investigation though revealed data sharing with third parties, nothing happened, and everything remained on the paper with no action being taken.“In the investigation, 23andMe and Ancestry.com were also in the list of well-known companies.”On the other hand, where 23andMe is selling data for millions of dollars, customers are receiving nothing. This shows the breach and violation of data privacy.Given such unfairness and the increasing demand for this particular data, several promising start-ups are putting their entrepreneurial skills to protect users’ privacy and providing financial incentives for sharing it with researchers.It is a well-established fact, that our data is being taken for medical studies. More importantly, it is being transferred to others without our permission.What if the DNA studies, the genomic data gets hacked? I mean what if it falls in the wrong hands? This is a serious cybersecurity measure question.And blockchain technology is currently at the top when it comes to storing data securely and unhacked.

How Blockchain Is Impacting Genome Industry?

The genomic industry, companies like 23andMe, Illumina, Encrypgen (DNA), Luna DNA, Nebula Genomics, etc. use blockchain technology. Last year Encrypgen launched the world’s first public genomic data platform “Gene-Chain,” where consumers can securely upload & store their and their family’s genomic data for the benefit of a medical study.Furthermore, the user has all rights and freedoms to sell their data intentionally in exchange for money to the medical researchers. Here, researchers are data buyers who use their DNA tokens and give money to the users.Also, the last year in the U.S. Securities & Exchange Commission, Luna DNA’s DNA platform qualified to offer the share amount of money to the owner. Therefore, the Luna DNA became a major health data contributors.You might feel that this is a good option to give data and get money. However, it doesn’t look like that. It is because the money comes to you directly in cryptocurrencies like BTC and FIAT.Remember, we told you blockchain supports cryptocurrencies! Right from the start of data to money, everything is in favor of blockchain, genomic service providers, and blockchain.“Finally, is blockchain really impacting the genomics industry or we are being let unknown what really is going on with DNA.” My job ends here, I hope I created an interest in you to read more about the genome and blockchain before you make a conclusion by yourself.You can also write us down in the comment section below to discuss more about this topic. Otherwise, you can let us know something new related to this confluence of Genomes and Blockchain.I’ll be glad to write more about this!