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First of all: "Beta glucose" and "Alpha glucose" aren't actually the correct, formal terms. If you were taking a biochemistry test using those names would be marked wrong.
You see: glucose wraps into a ring.
The molecule of glucose is often explained as a chain of carbon molecules with hydroxyl and hydrogen groups attached, but whenever it is dissolved in water it spontaneously loops around to form a ring - the same way that you can take a rope and take the two free ends and bring them together and tie them into a knot to make a loop.
Well, just like tying a knot, there are two ways to do it: in a rope you can either start with laying the right end over the left end, or you can start with the left end lying over the right end (okay - to make a full knot that holds the loop together you have to do it twice, so there are really 4 ways to do it with the rope - but in a glucose molecule you only need to do it once).
In a rope the result may look the same, but actually these two ways of looping together are mirror images of each other. And looping glucose together one way or the other may not seem like a big deal either, but glucose, like most organic molecules, is asymmetric, and because of this there are certain properties of the way the molecule behaves that are goverened by the exact orientation of the molecules. In biolochemistry this is important because many enzymes that build or break down organic molecules can only work on a molecule of one specific orientation or the other, but not both.
In glucose when you make this loop what you are really doing is linking carbon number 1 (in a straight-chain glucose carbon 1 would be linked to an oxygen atom in an aldehyde configuration with a double bond between the two atoms while all the other oxygen atoms in the molecule were only as hydroxyl groups) to the hydroxyl group from carbon number 5 (and in doing so the aldehyde group converts into another hydroxyl group). If you do this in a way that carbon number 6 is swiveled around to end up OPPOSITE from the new hydroxyl group on carbon 1 (meaning if you think of this 6-atom ring as a flat ring with the hydroxyl groups and carbon 6 sticking up or down - it isn't, but it's easier to visualize that way and the geometry of the bent ring isn't any different - these 2 structures would be on opposite sides of the ring), then it is an alpha configuration.
Formally speaking, the 6-atom ring structure which is formed is "Glucopyranose" -- Alpha-glucopyranose if carbon number 6 is opposite to the carbon-1 hydroxyl group, and Beta-glycopyranose if carbon number 6 is on the same side as the carbon-1 hydroxyl group.
And while I have been writing that "you make" these structures - they're not really made: glucose molecules in water spontaneously flip back and forth between glycopyranose and the straight chain constantly. In typically-dilute water solutions seen in living organisms more than 99% of glucose molecules will be in either alpha or beta glucopyranose form.
You can also make 5-atom ring structures (with carbons 5 and 6 hanging off like a tail) which are also alpha and beta - but this form is called a glucofuranose. In some chemistry labs this is important, but in biological systems the percentage of glucofuranose present, either alpha or beta, is negligible.
But now the big question: WHY is alpha vs. beta glucofuranose important?
Short answer: They are biochemically different, and used differently. Most importantly:
Alpha-glucofuranose chemically linked together in chains is either starch or glycogen; either way: humans and most animals have the enzymes to break this back down to glucose to burn for fuel.
Beta-glucofuranose chemically linked together in chains is called cellulose - wood! And no animal on earth has the enzymes to break this down to glucose again - only fungi or microbes (including the microbes in the guts of cows or termites; that's how cows live on grass - the animals can't do it themselves).
What else can I help you with?
Which is more stable alpha or beta glucose?
beta glucose
What is difference between beta and alpha test Brief?
A brief explanation of the difference between beta and alpha test is that alpha test is usually in-house and is part of basic development. Beta test is right before product release and typically includes customer input.
What is the difference between alpha and beta naphthol?
alpha naphthol with CCl4(carbon tetrachloride) gives blue colour whereas beta naphthol with CCl4 gives no colour. that is the distinction test between alpha and beta naphthol.
What is the difference between utorrent stable and beta?
Utorrent has an alpha and beta program. Alpha is for internal testing and is considered less stable. Beta is for outside use. Utorrent stable deviation allows for a percentage of errors but at this time is still most reliable.
What the different between alpha Amyrin and beta Amyrin?
Beta amyrine and alpha amyrine both are pentacyclic triterpenoids with betahydroxy group at position number 3 but beta amyrine is derived from oleanane skeleton and alpha amyrine is derived from ursane skeleton
What are the differences between alpha D-glucose and beta D-glucose?
Alpha D-glucose and beta D-glucose are two different forms of the sugar molecule glucose. The main difference between them lies in the orientation of the hydroxyl group attached to the first carbon atom in the glucose molecule. In alpha D-glucose, the hydroxyl group is positioned below the ring structure, while in beta D-glucose, the hydroxyl group is positioned above the ring structure. This difference in orientation affects the overall structure and properties of the molecules.
What is the percentage of alpha and beta in an equimolar mixture of alpha d glucose and beta d glucose?
In an equimolar mixture of alpha-D-glucose and beta-D-glucose, the percentage of alpha form would be 50% and the percentage of beta form would also be 50%.
Which is more stable alpha or beta glucose?
beta glucose
Is starch a polymer of beta glucose?
starch is an alpha-glucose, Cellulose is a beta-glucose molecule
Is glycogen composed of alpha or beta glucose?
Glycogen is composed of alpha glucose molecules.
What polysaccharides consists of alpha and beta D glucose units?
Starch consists of alpha-D glucose units, while cellulose consists of beta-D glucose units.
Why do molecules of alpha glucose and beta glucose have different shapes?
Alpha glucose and beta glucose differ in the position of the hydroxyl group on the first carbon atom. In alpha glucose, the hydroxyl group is below the ring plane, while in beta glucose, it is above the ring plane. This difference leads to a slight variation in the overall shape and structure of the two molecules.
What is difference between beta and alpha test Brief?
A brief explanation of the difference between beta and alpha test is that alpha test is usually in-house and is part of basic development. Beta test is right before product release and typically includes customer input.
What is the difference between alpha and beta naphthol?
alpha naphthol with CCl4(carbon tetrachloride) gives blue colour whereas beta naphthol with CCl4 gives no colour. that is the distinction test between alpha and beta naphthol.
Why the shape formed when beta glucose molecules join in a single chain is different from that formed when alpha glucose molecules join in a single chain?
Because beta is mo beta than alpha, you feel me?
Why shape formed when beta glucose molecules join in a single chain is different from that formed when alpha glucose molecules join in a single chain?
Because beta is mo beta than alpha, you feel me?
What are the differences between beta and alpha glucose and how do these differences impact their respective roles in biological processes?
Beta glucose and alpha glucose are two different forms of the sugar molecule glucose. The main difference between them lies in the orientation of the hydroxyl group attached to the first carbon atom. In beta glucose, the hydroxyl group is positioned above the ring structure, while in alpha glucose, it is positioned below the ring structure. These structural differences impact their roles in biological processes. Beta glucose is less common in nature and is mainly found in cellulose, a structural component of plant cell walls. Alpha glucose, on the other hand, is more prevalent and is a key component of energy storage molecules like glycogen and starch. In terms of biological processes, the orientation of the hydroxyl group in beta glucose makes it more stable and suitable for forming long, linear chains in cellulose. Alpha glucose, with its different orientation, is more flexible and can be easily broken down and utilized for energy production in processes like glycolysis.
