Glycogen in a sentence

(1) Glucose is used to make glycogen.

(2) Carbohydrates are converted into glycogen.

(3) The enzyme catalyzes the breakdown of glycogen.

(4) The body can store up to 500 grams of glycogen.

(5) Glycogen is a form of stored energy in the body.

(6) Glycogen is a crucial fuel source for the brain.

(7) The breakdown of glycogen is a form of catabolism.

(8) The liver and muscles store glycogen for later use.

(9) The interseptal spaces in the liver store glycogen.

(10) The biolysis of glycogen releases glucose molecules.

Glycogen sentence

(11) Amylogen is essential for the breakdown of glycogen.

(12) The body can metabolize carbohydrates into glycogen.

(13) Glycogen levels can be affected by diet and exercise.

(14) Glycogen is an important energy reserve for the body.

(15) Glycogen is primarily stored in the liver and muscles.

(16) Glycogen synthesis occurs when glucose levels are high.

(17) Glycogen depletion can occur during periods of fasting.

(18) The intense workout caused a burnup of muscle glycogen.

(19) Amylopsins are essential for the breakdown of glycogen.

(20) Glucose is stored in our liver and muscles as glycogen.

Glycogen make sentence

(21) Glucose is stored in the liver and muscles as glycogen.

(22) Glycogen levels can be depleted during intense exercise.

(23) Phosphorylated sugars are involved in glycogen synthesis.

(24) Glycogen breakdown releases glucose into the bloodstream.

(25) Glycogen is a key component of the body's energy balance.

(26) Glycogen synthesis requires the enzyme glycogen synthase.

(27) The enzyme glycogen synthase is involved in glycogenesis.

(28) Glycogenolysis is the breakdown of glycogen into glucose.

(29) Glucoses are stored in the liver and muscles as glycogen.

(30) Glycogen is a polysaccharide made up of glucose molecules.

Sentence of glycogen

(31) Glycogenolytic enzymes catalyze the breakdown of glycogen.

(32) Carbs can be stored in the body as glycogen for later use.

(33) The body can store up to 400 grams of glucose as glycogen.

(34) The human muscles can store energy in the form of glycogen.

(35) Phosphorylase is an enzyme involved in glycogen metabolism.

(36) Glycogenesis is an important aspect of glycogen metabolism.

(37) Glucokinase helps convert glucose into glycogen for storage.

(38) Glycogenolytic is regulated by the enzyme glycogen synthase.

(39) The stroma of the liver is responsible for storing glycogen.

(40) Exercise can help catabolize stored glycogen in the muscles.

Glycogen meaningful sentence

(41) The liver mobilizes energy by converting glycogen to glucose.

(42) Glycogen synthase is an enzyme involved in glycogen synthesis.

(43) Glycogenolytic enzymes break down glycogen into glucose units.

(44) Saccharide is converted into glycogen for storage in the body.

(45) The breakdown of glycogen into glucose is a catabolic process.

(46) Carbohydrates are stored in the liver and muscles as glycogen.

(47) Phosphorylase catalyzes the breakdown of glycogen into glucose.

(48) Glycogen is broken down into glucose when the body needs energy.

(49) Amylases are involved in the breakdown of glycogen in the liver.

(50) Amylopsin is involved in the breakdown of glycogen in the liver.

Glycogen sentence examples

(51) Glycogenesis is the process of converting glucose into glycogen.

(52) Defects in glycogenolysis can lead to glycogen storage diseases.

(53) The athlete's glycogen stores were depleted through a long race.

(54) Glycogen is an important energy source during prolonged exercise.

(55) Glycogenolytic is regulated by the enzyme glycogen phosphorylase.

(56) The body stores excess carbs as glycogen in the muscles and liver.

(57) Low glycogen levels can lead to fatigue and decreased performance.

(58) Deficiency of phosphorylase can lead to glycogen storage diseases.

(59) Monosaccharide is a fundamental unit in the formation of glycogen.

(60) Glycogenolytic enzymes break down glycogen into glucose molecules.

Sentence with glycogen

(61) The hydrolysis of glycogen saccharifies it into glucose molecules.

(62) The athlete's muscle glycogen was depleted in the intense workout.

(63) Cytoplasmic inclusions store substances such as glycogen or lipids.

(64) Carbohydrase is involved in the breakdown of glycogen in the liver.

(65) Glycogen phosphorylase is an enzyme involved in glycogen breakdown.

(66) During exercise, our muscles catabolize stored glycogen for energy.

(67) Our bodies can store glucose for later use in the form of glycogen.

(68) The body stores excess sucrose as glycogen in the liver and muscles.

(69) Glycogen stores can be replenished through carbohydrate consumption.

(70) Phosphorylase deficiency can lead to abnormal glycogen accumulation.

Use glycogen in a sentence

(71) Phosphorylase is an enzyme that cleaves glucose units from glycogen.

(72) The enzyme responsible for glycogenolysis is glycogen phosphorylase.

(73) Glycogenolytic is a process that involves the breakdown of glycogen.

(74) The biolyses of glycogen in animals is important for energy release.

(75) The body can catabolize stored glycogen when glucose levels are low.

(76) Lysosomes are involved in the degradation of glycogen in liver cells.

(77) The human body can store energy in the form of glycogen in the liver.

(78) Athletes often consume foods high in glycogen to fuel their workouts.

(79) Glycogenolysis is the process of breaking down glycogen into glucose.

(80) Phosphorylase catalyzes the breakdown of glycogen into glucose units.

Sentence using glycogen

(81) The interseptal spaces in the liver store excess glucose as glycogen.

(82) The sarcosomal glycogen stores provide energy for muscle contraction.

(83) The liver converts glycogen into glucoses when the body needs energy.

(84) Glycogen is stored in specialized structures called glycogen granules.

(85) Glycogen breakdown is stimulated by the enzyme glycogen phosphorylase.

(86) The breakdown of glycogen involves the release of glucose-6-phosphate.

(87) Phosphorylase is involved in the breakdown of glycogen during fasting.

(88) Amylum is converted into glycogen and stored in the liver and muscles.

(89) The body can metabolize down excess glucose into glycogen for storage.

(90) The unhydrolyzed glycogen was not broken down into glucose for energy.

Glycogen example sentence

(91) Glycogen is broken down into glucose-1-phosphate during glycogenolysis.

(92) Glycogen stores can be depleted during prolonged fasting or starvation.

(93) Insulin inhibits glycogenolytic activity to promote glycogen synthesis.

(94) Lysosomes are responsible for the breakdown of glycogen in liver cells.

(95) The body needs to replenish its glycogen stores after intense exercise.

(96) Catabolizing stored glycogen is crucial for maintaining brain function.

(97) The liver helps to absorb insulin and store excess glucose as glycogen.

(98) The body can catabolize stored glycogen to maintain blood sugar levels.

(99) The body can metabolize carbohydrates into glycogen for energy storage.

(100) Carbohydrate loading can help replenish glycogen stores in the muscles.

Sentence with word glycogen

(101) Starch into glycogen is a process that occurs in the liver and muscles.

(102) Monosaccharides are important for the synthesis of glycogen in the body.

(103) Glycogenesis is the process by which glucose is converted into glycogen.

(104) Glycogenolytic reactions release glucose molecules from glycogen stores.

(105) The body can catabolize stored glycogen when blood sugar levels are low.

(106) Glycogenic precursors are molecules that can be converted into glycogen.

(107) The athlete's muscles were depleted of glycogen after an intense workout.

(108) Glycogen is an essential component of the body's carbohydrate metabolism.

(109) The body stores excess carbohydrate as glycogen in the liver and muscles.

(110) The biolysis of glycogen in muscle cells provides energy during exercise.

Sentence of glycogen

(111) Hepatocytes store glycogen, which can be released as glucose when needed.

(112) Glycogenolytic is impaired in individuals with glycogen storage diseases.

(113) If glycogenolytic enzymes are inhibited, glycogen reserves remain intact.

(114) The body can catabolize stored glycogen to maintain blood glucose levels.

(115) Metabolized carbohydrates are stored in the form of glycogen in the liver.

(116) Glycogen metabolism is regulated by hormones such as insulin and glucagon.

(117) Glycogenolytic enzymes are involved in glycogen breakdown in muscle cells.

(118) The phosphorylase enzyme is highly specific for glycogen as its substrate.

(119) The biolyses of glycogen in the liver helps maintain blood glucose levels.

(120) The body stores excess disaccharides as glycogen in the liver and muscles.

Glycogen used in a sentence

(121) Gly is an abbreviation for glycogen, a form of stored glucose in the body.

(122) The body can catabolize stored glycogen to provide energy during exercise.

(123) The body can catabolize stored glycogen to fuel intense physical activity.

(124) The activity of phosphorylase is regulated by the enzyme glycogen synthase.

(125) The body replenishes glycogen stores in the muscles after intense exercise.

(126) The enzyme responsible for phosphorolysis is called glycogen phosphorylase.

(127) The hydrolysis of glycogen releases glucose molecules for energy production.

(128) Hexoses can be converted into glycogen for storage in the liver and muscles.

(129) Glycogenesis is an important process for maintaining muscle glycogen stores.

(130) Glycogenolytic reactions are regulated by the enzyme glycogen phosphorylase.

Glycogen sentence in English

(131) Glucose-6-phosphate is an essential substrate for the synthesis of glycogen.

(132) The catabolism of glycogen provides a quick source of energy during exercise.

(133) Hexose sugars can be converted into storage forms such as glycogen or starch.

(134) The formation of ketoses occurs during the breakdown of glycogen in the body.

(135) Phosphorylase is involved in the breakdown of glycogen stores during fasting.

(136) Catabolizing stored glycogen is crucial for maintaining blood glucose levels.

(137) If glycogenolytic enzymes are deficient, glycogen storage diseases can occur.

(138) Glucose is used to make glycogen, which is a type of energy storage molecule.

(139) Glucose-6-phosphate is a precursor for the synthesis of glycogen in the liver.

(140) Phosphorylase deficiency can result in an accumulation of glycogen in tissues.

(141) Phosphorolysis is often used by organisms to break down glycogen into glucose.

(142) Glycogenolysis is a catabolic process that releases energy stored in glycogen.

(143) Glucose is converted into glycogen, and it is stored in the muscles and liver.

(144) Glycogen is converted back into glucose through the process of gluconeogenesis.

(145) Glycogen is an important energy source for both aerobic and anaerobic exercise.

(146) The body metabolises excess glucose by converting it into glycogen for storage.

(147) Glucose is used by our body to make glycogen, which is a type of stored energy.

(148) Phosphorolysis is a process that breaks down glycogen into glucose-1-phosphate.

(149) The sympathetic nervous system can cause a decrease in liver glycogen synthesis.

(150) Glycogen storage diseases are genetic disorders that affect glycogen metabolism.

(151) Phosphorylase is an important enzyme in the production of glucose from glycogen.

(152) The breakdown of stored glycogen in the liver provides a quick source of energy.

(153) The anabolism of glucose leads to the production of glycogen for energy storage.

(154) The liver can convert stored glycogen into glucose when blood sugar levels drop.

(155) Glycogenolysis is a catabolic process that releases energy from stored glycogen.

(156) Glycogen is a polysaccharide that serves as a storage form of glucose in animals.

(157) Phosphorylase is involved in the mobilization of glycogen stores during exercise.

(158) Phosphorylase is a key enzyme in the breakdown of glycogen for energy production.

(159) Glycogenic processes are disrupted in individuals with glycogen storage diseases.

(160) The body stores excess glucose derived from amylopectins in the form of glycogen.

(161) Phosphorylase is an enzyme that catalyzes the breakdown of glycogen into glucose.

(162) Glycogenolytic enzymes play a crucial role in breaking down glycogen into glucose.

(163) Glycogenolytic enzymes are responsible for releasing glucose from glycogen stores.

(164) Glycogenolytic breakdown is impaired in certain genetic glycogen storage diseases.

(165) The biosyntheses of carbohydrates involve the conversion of glucose into glycogen.

(166) The athlete's recovery drink helps him sustain up to 90% of muscle glycogen levels.

(167) Glycogenolytic breakdown is impaired in individuals with glycogen storage diseases.

(168) The body can convert saccharide into glycogen for storage in the liver and muscles.

(169) Glycogen storage diseases can lead to symptoms such as muscle weakness and fatigue.

(170) Glycogenolytic activity is decreased in individuals with glycogen storage diseases.

(171) The process of hydrolysis can be used to hydrolyze glycogen into glucose molecules.

(172) The activation of glycogen synthase requires phosphorylation with protein kinase A.

(173) The intense workout caused the athlete to burn through his muscle glycogen quickly.

(174) The liver stores excess glucose in the form of glycogen for when the body needs it.

(175) Mutations in the gene encoding phosphorylase can lead to glycogen storage disorders.

(176) The breakdown of glycogen in the liver helps break it down into energy for the body.

(177) Osmiophilic staining revealed the presence of glycogen granules in the liver tissue.

(178) If glycogenolytic enzymes are inhibited, the breakdown of glycogen will be impaired.

(179) If glycogenolytic enzymes are overactive, excessive breakdown of glycogen can occur.

(180) If glycogenolytic enzymes are activated, glycogen is broken down into glucose units.

(181) If glycogenolytic enzymes are overexpressed, excessive glycogen breakdown can occur.

(182) Catabolizing stored glycogen can help to maintain blood sugar levels during fasting.

(183) Glycogenolytic breakdown is impaired in individuals with glycogen storage disorders.

(184) Glycogenic capacity refers to the amount of glycogen that can be stored in the body.

(185) Histochemical analysis of the liver tissue showed the presence of glycogen granules.

(186) Glycogenolytic enzymes are responsible for breaking down glycogen into glucose units.

(187) Glycogenolytic processes are inhibited by insulin, which promotes glycogen synthesis.

(188) Glucose is converted into glycogen and stored in the liver and muscles for later use.

(189) Glycogen, a form of polysaccharose, is stored in the liver and muscles for later use.

(190) Glycogenic disorders can lead to abnormal glycogen storage and metabolism in the body.

(191) Glucose-6-phosphate can be converted to glycogen for storage in the liver and muscles.

(192) Glycogenolysis is inhibited by insulin, which promotes glycogen synthesis and storage.

(193) Glycogenolysis is a catabolic process, and it breaks down glycogen into glucose units.

(194) The multienzyme system involved in the breakdown of glycogen is regulated by hormones.

(195) Carbohydrates are broken down into glycogen, which is stored in the liver and muscles.

(196) Phosphorylase deficiency can result in an abnormal accumulation of glycogen in tissues.

(197) Glycogen storage diseases are genetic disorders that affect the metabolism of glycogen.

(198) The process of catabolizing glycogen provides a quick source of energy during exercise.

(199) Overcoming insulin resistance can improve the body's ability to store and use glycogen.

(200) Ergastic substances can also be found in animal cells, such as in the form of glycogen.

(201) Starch during digestion is converted into glycogen and stored in the liver and muscles.

(202) Metabolizing carbohydrates into glycogen helps in maintaining stable blood sugar levels.

(203) The glycosidic bond in glycogen connects glucose molecules in a highly branched fashion.

(204) The process of metabolism allows the body to metabolize onto stored glycogen for energy.

(205) Glycogenolytic disorders can lead to abnormal glycogen breakdown and metabolic problems.

(206) The histochemistry analysis revealed a higher concentration of glycogen in muscle tissue.

(207) The liver stores glycogen, and it can release glucose through glycogenolysis when needed.

(208) Carbohydrates are stored in the body as glycogen, which is used during physical activity.

(209) The reverse of phosphorolysis is called glycogenesis, which builds glycogen from glucose.

(210) Carbohydrate loading is a strategy used by endurance athletes to maximize glycogen stores.

(211) Phosphorylase is an essential enzyme for the breakdown of glycogen stores during exercise.

(212) The body can store excess glucose from disaccharides as glycogen in the liver and muscles.

(213) Glycogenic enzymes are responsible for catalyzing the conversion of glucose into glycogen.

(214) The hepatic portal vein is crucial for the synthesis and storage of glycogen in the liver.

(215) Glycogenolytic reactions are catalyzed by specific enzymes such as glycogen phosphorylase.

(216) The body needs potassium to break down and convert stored glycogen into glucose for energy.

(217) Glycogenolytic enzymes are responsible for breaking down glycogen into glucose-1-phosphate.

(218) Vitamin B6 is involved in the breakdown of glycogen, which provides energy during exercise.

(219) Consuming protein with carbohydrates can aid in muscle recovery and glycogen replenishment.

(220) Carbohydrates are converted into glycogen and stored in the liver and muscles for later use.

(221) Glucose-6-phosphate is a key molecule in the regulation of glycogen synthesis and breakdown.

(222) Glucose is converted into glycogen, and it is stored in the liver and muscles for later use.

(223) Potassium helps break down and convert stored glycogen into glucose during periods of fasting.

(224) Mutase plays a crucial role in the conversion of glucose to glycogen in the liver and muscles.

(225) I learned in my biology class that starch except for glycogen is not stored in the human body.

(226) Glycogenic breakdown occurs when glycogen is converted back into glucose for energy production.

(227) The liver plays a crucial role in glycogenolysis, as it stores and releases glycogen as needed.

(228) Glycogenolytic breakdown in the liver is initiated by the activation of glycogen phosphorylase.

(229) Consuming carbohydrates after exercise can help replenish nutrients and restore glycogen levels.

(230) Glycogenolysis is an energy-consuming process, as it requires ATP for the breakdown of glycogen.

(231) Glycogenolytic enzymes are activated by phosphorylation, allowing for the breakdown of glycogen.

(232) Glycogenic metabolism is the process by which glycogen is synthesized and broken down in the body.

(233) Glucose-6-phosphate is an important molecule in the regulation of glycogen synthesis and breakdown.

(234) Glycogenic storage diseases are genetic disorders that affect the body's ability to store glycogen.

(235) Glycogenolysis is stimulated by hormones such as glucagon, which promotes the breakdown of glycogen.

(236) Glucose is stored in the liver and muscles as glycogen, which can be broken down and used as needed.

(237) Glycogenolytic enzymes, such as glycogen phosphorylase, break down glycogen into glucose-1-phosphate.

(238) Glycogenolytic enzymes are activated by cAMP-dependent protein kinase, initiating glycogen breakdown.

(239) Triose is an important molecule in the synthesis of glycogen, the storage form of glucose in animals.

(240) Creatine has been shown to increase muscle glycogen storage, which can enhance endurance performance.

(241) Including carbohydrates in your post-workout meal can help college students replenish glycogen stores.

(242) The multienzyme system involved in the breakdown of glycogen is regulated by hormones such as insulin.

(243) Endurance athletes often use carbohydrate loading to increase their glycogen stores and delay fatigue.

(244) Carbohydrates are necessary for the body to produce glycogen, which is stored in the liver and muscles.

(245) As ATP is used up during exercise, the body must rely on other energy sources such as glycogen and fat.

(246) Consuming foods rich in amylopectins can help replenish glycogen stores after intense physical activity.

(247) The isoenzyme is responsible for the breakdown of glycogen, and it also participates in gluconeogenesis.

(248) Lactoprotein, when combined with carbohydrates, can help replenish glycogen stores after intense exercise.

(249) When insulin levels are low, glycogenolytic enzymes are activated, and glycogen is broken down into glucose.

(250) When glycogenolysis is activated, glucose is released from glycogen stores to meet the body's energy demands.

(251) When glycogenolysis is stimulated, glycogen stores are depleted, and glucose is released into the bloodstream.

(252) Glycogenolysis is a reversible process, and it can be reversed through glycogenesis, the synthesis of glycogen.

(253) The enzyme responsible for glycogenolysis is activated during exercise, and it breaks down glycogen into glucose.

(254) Glucose is stored in the muscles and liver as glycogen, which can be broken down and used for energy when needed.

(255) Glycogenolytic reactions are regulated by the enzyme glycogen synthase, which catalyzes the formation of glycogen.

(256) When carbohydrates are consumed in excess, the body stores them as glycogen in the liver and muscles for later use.

(257) It is important to taper exercise intensity while carbohydrate loading to allow the body to properly store glycogen.

(258) The storage of excess glucose in the form of starch along with glycogen is crucial for maintaining blood sugar levels.

(259) The glycogenolytic process is regulated by the enzyme glycogen phosphorylase, which catalyzes the breakdown of glycogen.

(260) Catabolism of glycogen stores in the liver can provide a quick source of energy during periods of high physical activity.

(261) Carbohydrates are stored in the body as glycogen, which can be used during periods of fasting or intense physical activity.

(262) Athletes often start carbohydrate loading a few days before their event to ensure their glycogen stores are fully replenished.

(263) The breakdown of glycogen during glycogenolysis releases glucose-1-phosphate, which can be converted into glucose-6-phosphate.

(264) The catabolism of glycogen is an important process for maintaining blood glucose levels during periods of fasting or exercise.

(265) Glycogenolytic regulation is disrupted in individuals with glycogen storage diseases, leading to abnormal glycogen accumulation.

(266) Glycogenolytic processes are upregulated in individuals with glycogen storage diseases, leading to excessive glycogen breakdown.

(267) The liver, which is an excretory organ, produces bile and detoxifies harmful substances, but it also stores glycogen for energy.

(268) The isoenzyme that converts glucose into glycogen is primarily found in the muscles and liver, ensuring energy storage for future use.

(269) Carbohydrates are broken down into glucose, which is used by the body for energy, and glycogen, which is stored in the liver and muscles.

(270) Glycogenolytic activity is increased in individuals with glycogen storage diseases, as their bodies struggle to break down glycogen properly.

(271) Creatine supplementation has been shown to increase muscle glycogen stores, providing a readily available energy source during intense exercise.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Glycogen. They do not represent the opinions of TranslateEN.com.