Savings Account with Higher Interest Rates

1. Airtel Payments Bank gives 7,25 % interest rate on savings.

Bharti Airtel Payment bank givess 7.25 % interest rate on its account. account opening procedure is to simpe with airtel mobile number. It also offers Free personal accident insurance cover of Rs. 1 Lac. Using this account customer can Purchase, Recharge and Pay bills using onilne debit card. Account opening process is also simple. An Airtel user, with an Aadhaar card, PAN card and a smartphone with Internet connectivity can become a customer of Airtel’s Payments Bank and take advantage of high interest rate of 7.25% p.a by depositing a maximum of Rs.1 lakh

To Open an account , it takes approximately 3 minutes, you have to only only scan of your finger and with Aadhar number.

Users have to login www.airtel.in/money from their smart phone or from a computer. Account will be created at Airtel money website. Those who are already member of Airtel money, uses the wallet for making the transaction for purchase online transactions etc, will need only to update their app to use the payments bank facility.

Cannabis Strains To Improve Focus

Officially, the scientific jury is still out on whether or not cannabis helps with focus. Several studies seem to show that cannabis decreases motivation, but they are very limited and do not take into account all of the variables – for example, what type of work the user is performing and what type of cannabis is being used.

On the other hand, there is plenty of anecdotal evidence that suggests that cannabis helps with focus and be more productive. Some sources even claim that cannabis can be used as an effective treatment for ADD/ADHD medication. Of course, this has yet to be tested, let alone proven. In any case, cannabis can help you focus – but if you choose the wrong strain, you could just as easily end up scatterbrained and couch-locked. Which strains should you choose?

Top Strains For Focus
Sour Diesel.A classic, Sour Diesel is one of Leafly’s all-time highest-rated strains. It’s euphoric and energizing, but also very strong. Inhale with caution.

Harlequin is a CBD-dominant strain, so you won’t get much of a ‘high.’ If you’re trying to focus, though, this strain may be just what you’re looking for.

Green Crack.Allegedly named by Snoop Dogg himself, Green Crack is a famous strain. It can come on a little strong, so start off slow if you aren’t a seasoned cannabis consumer.
This strain is euphoric and energetic, with a classic Sativa-like citrus scent.

Durban Poison.Durban poison is a fruity, crisp-smelling strain known for sharp, even meditative highs. It’s an energy booster that works well for focused work.

Super Lemon Haze.Super Lemon Haze is a hybrid, so you can expect a level of body high along with the head high. However, the strain is a hybrid, and isn’t overpowering.
Just make sure you get Super Lemon Haze and not Super Lemon OG, this strain’s stonier cousin.

Harle-Tsu.This strain has a roughly 1:1 THC:CBD ratio, which makes it perfect for focus. Let your stressors melt away without sacrificing clarity to a THC buzz.

What To Look For

Above, I listed a few of the most popular strains that are known to be good for a focused high. However, it’s far from an exhaustive list. What qualities can you look for in a strain that will let you know if cannabis helps with focus?

Also found in pine trees (surprise) pinene is a terpene that can promote alertness and stave off any post-smoke sleepiness you may experience.

Limonene is found in citrus, and it is one of the main compounds responsible for making sativas smell like… well, sativas. This strain can elevate your mood and boost your energy, so it’s essential for a strain to help you focus.

THC:CBD ratio. This one is important, but the ideal ratio varies from person to person. If you’re trying to get work done, you probably don’t want to load up on so much THC that you can’t focus. However, you might not want to opt for a pure CBD strain, either. CBD can counteract many of THC’s side effects without annihilating the buzz entirely, and that buzz can sometimes provide a helpful energy boost; try different ratios to find out what you need.

When you’re looking for a new strain – whether for focus or for anything else – follow your nose. For focusing strains, you’ll want to look for light, citrusy, fruity scents. Avoid heavy, musky, earthy ones, as those strains are most likely much more like classic indicas. Smoke or vape right before you gets to work for the best effect and be careful not to overdo it. Then enjoy the buzz and get things done!

Detailed Introduction to Enzymatic Modification Technology

Since enzymes have the advantages of reaction specificity, high catalytic efficiency and mild reaction conditions, they have been increasingly used in industry, agriculture, medicine and environmental protection. But the overall has not yet reached the level of large-scale application, the main reason is that the enzyme itself has some deficiencies, such as instability, strict requirements for pH, and antigenicity. Therefore, people hope to use various methods to directionally modify enzyme molecules as needed, and even create new enzymes that have not yet been discovered in nature to meet the needs of all walks of life.

Method for transforming enzyme molecule

At present, there are two main methods for transforming enzyme molecules, namely chemical modification and biological enzyme engineering.

Chemical modification uses chemical methods to transform enzyme molecules. The technique of chemical modification of enzyme molecules is relatively simple, but after modification of most enzymes, the chemical and biological properties will change. Therefore, the modification method should be selected according to the specific situation, and some protective measures should be taken to maintain the stability and yield of the enzyme as much as possible.

Biological enzyme engineering method: The chemical modification of enzymes is not the only way to transform enzymes. With the in-depth study of enzymes, the determination of the primary structure of amino acids, the application of gene recombination technology, etc., enzymes can be completely transformed, synthesized, and simulated. This is the main content of biological enzyme engineering. Biological enzyme engineering mainly includes genetic engineering technology to produce enzymes and protein engineering technology to transform enzymes.

Gene engineering technology to produce enzymes: Since the establishment of recombinant DNA technology in the 1970s, people have largely shed their dependence on natural enzymes. The development of genetic engineering makes it easier for people to obtain many kinds of natural enzyme genes by cloning, and make them efficiently expressed in microorganisms, and then carry out large-scale production through fermentation technology. Using genetic engineering methods to produce enzymes can greatly reduce the cost of enzyme products, and at the same time can make the production of rare enzymes easier.

At present, more than 100 enzyme genes have been successfully cloned, including urokinase gene and rennet gene. Among them, plasminogen activator and chymotrypsin are the most successful examples of using genetic engineering to obtain a large number of enzymes.

Human plasminogen activator is a class of serine proteases. It can hydrolyze plasminogen to produce active plasmin and dissolve fibrin in the blood clot. Clinically used to treat thrombotic diseases and promote the dissolution of thrombus in the body. The plasminogen activator produced by the engineering strain has the same effect as the enzyme synthesized by the human body in curative effect, and has been used in clinical trials.

Chymotrypsin is an essential enzyme for cheese production, and its source is limited. Chymotrypsin extracted from microorganisms often causes cheese bitterness. Therefore, people cloned the calf rennet gene and expressed it in the yeast system, and the obtained rennet had completely the same properties as the natural enzyme extracted from the calf stomach.

Protein engineering technology to transform enzymes was developed on the basis of genetic engineering. The two have different contributions to enzyme engineering. Genetic engineering mainly solves the problem of mass production of enzymes, while protein engineering mainly modifies (or transforms) natural proteins to obtain enzymes with new functions or create completely new enzyme molecules.

Protein engineering enzymes change or remove certain amino acid residues in the primary structure of the enzyme protein, thereby changing the enzyme-related functions, so that the enzyme exhibits some new characteristics without affecting other functions.

At present, enzyme protein engineering is mainly used for the transformation of industrial enzymes. For example, Bacillus subtilis protease added to washing powder to enhance the detergency, but this enzyme is easy to lose activity under the action of bleach. Now the protein engineering technology is used to replace the amino acid in the enzyme protein molecule, which greatly improves the antioxidant capacity of the enzyme, so it can be used together with bleach.

Using protein engineering can also design new enzymes. From the current level of protein engineering development, it is still difficult to design completely new enzymes. However, with the in-depth study of protein chemistry, protein crystallography, enzymology and other related disciplines, the development of protein engineering will inevitably lead to a higher level.