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  • Похожие публикации

    • Автор: [Grower Бот]
      If you’re like most of the fine folks in the cannabis community, you’ve probably never heard of THC-O. But don’t feel bad. You’re not somehow an inferior pothead, and you won’t have your cannabis card (an analog of the man card) revoked.
      THC-O doesn’t get a lot of press and it doesn’t lend itself to DIY like THC oil and CBD oil. Plus, to really understand this unique substance, you have to delve into some pretty hairy chemistry.
      For that reason alone, THC-O is a non-starter for most people. And that’s a shame because, with the legalization of cannabis sweeping the planet, THC-O is emerging from the shadowy fringes as a viable (and powerful) option for both recreational and medicinal use.
      In this article, the experts at Honest Marijuana demystify THC-O to help you understand the cutting edge of cannabis science and how it applies to your particular condition.
      Fair warning: we will be dealing with a lot of chemistry concepts (not to mention plenty of multisyllabic words), but we promise we’ll do our best to make it as accessible as possible.
      What Is THC-O?

      THC-O is the shortened name (the slang term) for THC-O-Acetate, also referred to as THC Acetate and ATHC. That’s a lot of names for one substance. And, yes, it can be confusing.
      But the nice thing about cannabis culture is that it leans more toward brevity than accuracy (thank goodness or we’d always have to say or write “tetrahydrocannabinol”). So you’ll probably come across THC-O or ATHC more often.
      And while we’re on the subject of names, it’s important that you don’t confuse ATHC with THCA (or THCa). THCA is tetrahydrocannabinolic acid — the parent molecule of THC.
      As you can see from the full name, the “A” in THCA stands for acid. THCA occurs naturally in raw cannabis and converts to THC through decarboxylation. In ATHC, the “A” stands for acetate. That’s the first major difference.
      The second major difference is that ATHC can only be produced in a laboratory environment. You can’t pick up a few tools at your local hardware and whip a batch of ATHC in your kitchen. The results would be disastrous (that means flaming death, boys and girls).
      So when it comes to ATHC vs. THCA, be sure to make note of where the “A” is in the name (and even whether it’s upper or lower case) because the two chemicals are completely different animals.
      Cannabinoid
      First and foremost, THC-O is a cannabinoid just like THC, CBD, CBG, and CBN. At their most basic, cannabinoids are chemical compounds that act on the cannabinoid receptors in your brain.
      In other words, they’re the “stuff” that gets you high, relieves your pain, and takes the edge off your anxiety.
      The thing about THC-O is that it is not a naturally occurring cannabinoid (like THC and CBD). It takes some pretty hefty — and volatile — chemistry to create THC-O in a lab. That processing strips away all the other beneficial chemical compounds (terpenes and flavonoids) and leaves behind a potent THC isolate with no flavor and no aroma.
      In its natural state (or unnatural state, to be more precise), THC-O is just a heavy brown liquid more akin to motor oil than anything else. And when all is said and done, THC-O is what’s known in chemistry circles as an “analog.”
      An analog is a compound having a structure similar to that of another compound, but differing from it in respect to a certain component. In this case, the original compound is THC. That makes THC-O a THC analog.
      Let’s investigate what that means in a bit more detail (with pictures!).
      What’s The Difference Between THC And THC-O?
      The best way to understand the difference between THC and THC-O is with pictures (they really are worth a thousand words).
      Here’s a picture of a regular old THC molecule:

      THC molecule
      Yeah, we know, it’s just a bunch of letters and numbers. But don’t worry too much about all the Hs and Cs and 3s. Focus instead on the lines and shapes. Trust us, it will make more sense when compared to the picture of THC-O.

      THC-O molecule
      The biggest difference between the two pictures (aside from the lack of Hs and Cs and 3s) is the upper right corner.
      In the top picture (THC molecule), there’s an OH. In the bottom picture (THC-O molecule), there’s an O and a new set of lines. That new set of lines is the acetate molecule (the “A” in ATHC).
      It’s the addition of that new molecule that sets ATHC apart from regular THC and makes it special.
      So what exactly does that new molecule do? We’ll answer that question in the next section.
      Why Is THC-O So Special?
      The addition of the acetate molecule to the base THC molecule does two very important things:
      It makes the THC molecule water-soluble. It makes the THC molecule stronger. We know you’re dying to hear about THC-O’s potency, but hold your horses. Let’s talk about water solubility first because that’s the basis of THC-O’s strength.
      THC-O Is Water Soluble

      Cannabinoids like THC and CBD are lipids (fatty oils) in their natural state. So, as a consumable product, they are fat-soluble (meaning they dissolve in oil).
      In your body, the dissolution of fats and oils undergoes a slightly different process than water-soluble substances like vitamins and fiber. In simplest terms, there’s an extra filtering step before the nutrients pass into your bloodstream.
      The difference in those processes means that, when it comes to cannabis consumption, less THC makes it into your bloodstream (because of the extra filtering) and, ultimately, to your brain (where all the magic happens).
      But water-soluble materials bypass that extra filtering step and pass directly into your bloodstream. That means more of the nutrient is available for use by your body.
      So when you consume THC-O, your body skips the extra filtering it would normally perform on regular THC (because THC-O is water-soluble) and passes a higher percentage of the molecules into your bloodstream.
      That, in essence, makes THC-O much more potent than regular smoked, dabbed, or ingested THC. How much more potent? We’ll give you the numbers in the next section.
      THC-O Is Stronger

      Hold on to your butts! Lab tests show that THC-O can be 300 percent stronger than regular THC. Yes, you read that right: 300 percent stronger.
      All of that because of a tiny acetate molecule and a bit of water-solubility! It makes you appreciate just how powerful a filtering agent your body can be.
      If you’re a thinking cannaseur, you may be wondering why anyone would need something that strong. And you’d be right. So let’s do away with the notion of using THC-O for recreational purposes — regular THC does just fine at getting you high — and focus instead on medicinal uses. That’s where THC-O really shines.
      It goes without saying that everyone is different. The biology of one person’s body is different from the biology of another person’s body. So, in some people, THC doesn’t have the desired medical effects (pain relief, anti-anxiety, etc.).
      THC-O, though, is, for all intents and purposes, a different version of the drug. Because of that, it can stimulate the cannabinoid receptors in your brain in a way that regular THC can’t.
      So where a THC pill or THC oil might not provide the pain relief you’re looking for, a THC-O product might be a viable alternative. That’s why more and more people are talking about THC-O these days — because of its potential medical benefits.
      So if you’re considering trying THC-O for the first time, start small (very small would be best) and increase your dosage slowly. It’s difficult to overdose on cannabinoids, but too much can take you way too high and give you a bad trip.
      That defeats the purpose of the whole endeavor.
      What Are The Effects OF THC-O?
      The medicinal effects of THC are pretty well-known. THC-O doesn’t differ in that regard. Where it does diverge is in its recreational effects (its high).
      Many describe the effects of THC-O as very spiritual and introspective. Some even liken the trip to LSD and shrooms — something regular THC products can’t claim.
      One thing of note is that, like edibles, you’ll have to wait 20 to 30 minutes before you feel the effects of THC-O. This is because your body has to separate (digest) the acetate molecule from the THC molecule before it’s sent to your brain.
      Should You Try THC-O For Yourself?
      Absolutely! Especially if you’re looking for a specific medical benefit. THC-O may be just the thing for you.
      Having said that, it’s essential to note that you should always buy your THC-O from a reputable dealer. Talk to the professionals at your local dispensary. They can help you find just the right product.
      And please, please, please don’t try to make THC-O on your own. The process requires special equipment and advanced training to get right. And volatile, flammable, and explosive chemicals are necessary.
      It’s not worth your life (or your home or your eyebrows) to do something that a lab can do better and safer.
      If you want to use THC-O, always buy, never DIY.
    • Автор: [Grower Бот]
      Ah, tissue culture. One of the many new trend words in the cannabis-space. What is it, you ask? The definition states that tissue culture is: “the growth in an artificial medium of cells derived from living tissue.” In other words, you can basically regenerate an entire plant just off a single plant cell. Fascinating, right? It’s almost like cloning on steroids–but there are far more benefits.
      We got the chance to speak with Justin, a lab technician at DSG Labs; and Chris, a breeder at Compound Genetics. They answered specific questions regarding the tissue culture process, and were nice enough to allow us to share this earthly wisdom with the world. 
      Consider this your go-to guide when you decide to take cloning to the next level.
      Mooney Moondog
      НT: Tell us a little about your company
      Justin: Darkest Shade of Grey Labs, or DSG Labs for short, was created to provide a service to fellow cannabis growers with the same problems we kept coming across when bringing in new genetics. We had the need to start collecting genetics to exponentially grow our flower demand while keeping up with the ever-changing palate and demand of fellow cannabis users. In doing this, we needed to clean some of our genetics of pathogens to ensure a clean, healthy garden.
      How did you get started in tissue culture?
      Justin: We started researching how large agriculture did this and found that tissue culture was a possible solution. We bought a few home kits–which were really a waste of time–and decided to invest a large sum of money in building a proper lab. We tried hiring a few different people to help develop proper methods and found that most of their knowledge was severely lacking. We started reading a lot of published papers along with attending events like the Society for In-Vitro Biology, or SIVB for short. Through these events, we found highly educated individuals and really pieced together a great group of people we could barrage with questions.
      Thousands of hours were spent doing R and D to develop the right environment and recipes. We were also able to further pursue a science-based genetics program with a few other like-minded individuals with extensive experience in the field who were coming up with the same roadblocks as us. We are now a team of people who are working in unison to create a science-based platform for genetic preservation, pathogen identification, pathogen eradication, micropropagation, genome sequencing, and marker-assisted breeding.
      Mooney Moondog
      How did Compound Genetics get started?
      Chris: Compound Genetics was created by a group of friends with a dream to preserve the essence of the cannabis they love, as well as seek out new expressions. We have been breeding, collecting, and cultivating rare genetics for years in an effort to bring the finest cannabis to the medical and recreational communities. Compound Genetics is best known for its work with Jet Fuel Gelato, the Menthol, and Legend Orange Apricot F2.
      What is tissue culture?
      Chris: Plant tissue culture is a collection of techniques used to maintain or grow plant cells, tissues, or organs under sterile conditions on a nutrient culture medium of known composition. Plant tissue culture is widely used to produce clones in a method known as micropropagation. Different techniques in plant tissue culture may offer certain advantages over traditional methods of propagation.
      How did you get introduced to tissue culture?
      Chris: Compound Genetics was introduced to tissue culture through extensive networking, and on the quest to create the greatest genetics possible utilizing solid scientific methods. Compound Genetics now has working relationships with several well-versed scientists to assist in the evolution of Compounds stable.
      What’s the benefits of tissue culture for cannabis seeds?
      Chris: The very direct benefit of tissue culture is the ability to clean your genetic library of any and all pathogens. This benefit can easily increase your vigor, yields, and potency. Tissue culture can also provide the ability to store your genetics in a safe, clean environment, long-term without much labor just in case anything in the cultivation environment may become contaminated.
      To create seeds from tissue culture would mean that the entire life must be spent in a sterile environment. There is no specific definition and everyone has a different idea of what tissue culture seeds really mean. There are people who will create seeds from mother plants that have been “TC’d” however unless done in a growth chamber the possibility of a virus is still highly likely if the plants were ever contaminated before. Unfortunately, certain virus/viroids can be transferred into the seeds in the breeding process. At Compound Genetics, we are creating a platform in which we can ensure our seeds are free of detrimental virus’ and viroid’s through tissue culture.
      How long does it take from plant cell to harvest?
      Chris: It takes about a year to truly establish a clean genetic library and beyond that only a few months for the breeding process. However, you only usually need to clean your library once as long as you keep TC versions banked and propagated at all times.
      Mooney Moondog
      What is required for tissue culture?
      Chris: You must be on the OCD spectrum to be talented at it. All kidding aside, you must know how to identify and eradicate all pathogens. You must, then, have very good aseptic SOPs and practice them well. Tools of the craft are generally similar to that which you would see in a traditional hospital’s surgery room. Plant TC is just the same as performing surgery in a hospital. You need a clean room, clean airflow, sterile tools, and to ensure you are also as clean as can be or you can contaminate the cultures.
      Is tissue culture the wave of the future?
      Chris: It seems that tissue culture might be the future for cannabis plants, depending on what route you have in mind. Some growers now are looking for a way to keep a large library of genetics in a small place. Instead of taking up an entire room for mother plants, you can store all your genetics on a shelf. Some are even looking to pick up dirty clones affected by mold, pests, and/or virus’ to do some research and development. They want to show everyone that you can acquire dirty clones and clean them up so they no longer are affected by the mold, pest, and/or virus through tissue culture. You will then have the same genetics you started with, but a sterile version of that clone. Apparently, you can even run old seeds with a lower germination rate and increase the chance of germination.
      Tissue culture has a nice variety of applications in cannabis. So to answer your question, I am sure. There’s no doubt in my mind that these methods will be adopted by many of the legal cannabis facilities around the world in the next few years. Who knows what else tissue culture would be able to offer by then?
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