Cellulose in a sentence

(1) Bagasses are rich in cellulose.

(2) Cellose is a type of cellulose.

(3) The microfibril is made of cellulose.

(4) Cuprammonium cellulose is biodegradable.

(5) Cellulase hydrolyzes cellulose into glucose.

(6) The cell wall is made up of cellulose fibers.

(7) The bagassoses have a high cellulose content.

(8) The hydrolysis of cellulose produces glucose.

(9) The filter paper is made from cellulose fibers.

(10) The intine is composed of cellulose and pectin.

Cellulose sentence

(11) Glucose is used in the production of cellulose.

(12) The enzyme autolyzes the cellulose into glucose.

(13) The cell wall in plants is made up of cellulose.

(14) Microfibrils are composed of cellulose molecules.

(15) Teredos have a unique ability to digest cellulose.

(16) The transformation of cellulose can yield ethanol.

(17) The cell walls of desmids are made up of cellulose.

(18) The dye molecules adsorb onto the cellulose fibers.

(19) The tunicles of tunicates are composed of cellulose.

(20) Woodborer larvae feed on the cellulose found in wood.

Cellulose make sentence

(21) The acid hydrolyses the cellulose into glucose units.

(22) The iodation of cellulose can enhance its dyeability.

(23) Cellulase hydrolyzes cellulose into glucose monomers.

(24) The biolysis of cellulose produces glucose molecules.

(25) Amylogen is important for the breakdown of cellulose.

(26) Cellulolytic fungi can degrade cellulose into glucose.

(27) The cell walls of red algae are composed of cellulose.

(28) The woodworm larvae feed on the cellulose in the wood.

(29) The blindgut is involved in the breakdown of cellulose.

(30) The depolymerization of cellulose can produce biofuels.

Sentence of cellulose

(31) Many cigarette filters are made from cellulose acetate.

(32) The paper can absorb through its cellulose composition.

(33) The enzyme hydrolyses the cellulose into glucose units.

(34) The cow cheweth on the cud to break down the cellulose.

(35) Methanol is used in the production of methyl cellulose.

(36) The saccharification of cellulose is a challenging task.

(37) The woodworm larvae feed on the cellulose found in wood.

(38) Gribbles are attracted to the cellulose content in wood.

(39) The bone-structures of flowers are made up of cellulose.

(40) The trisaccharide cellobiose is a component of cellulose.

Cellulose meaningful sentence

(41) The members of Plantae have cell walls made of cellulose.

(42) The chlorophyte cells have a cell wall made of cellulose.

(43) Nonruminant species lack the ability to digest cellulose.

(44) The worm burrowed into the wood to feed on the cellulose.

(45) Gribbles are known for their ability to digest cellulose.

(46) The peridinian cell wall is composed of cellulose plates.

(47) Starch into cellulose is a process that occurs in plants.

(48) The enzyme cellulase helps in the breakdown of cellulose.

(49) Cuprammonium cellulose is a type of regenerated cellulose.

(50) Denaturising the cellulose will make it easier to extract.

Cellulose sentence examples

(51) Termites are very good at breaking down cellulose in wood.

(52) Cellulose is a key component in the production of biofuels.

(53) Cellulosics are a type of materials derived from cellulose.

(54) The reticulitermes workers feed on cellulose found in wood.

(55) The enzyme hydrolyses the cellulose into glucose molecules.

(56) Termites are important for breaking down cellulose in wood.

(57) Many animals lack the enzymes necessary to digest cellulose.

(58) Cellobiose can be obtained from the hydrolysis of cellulose.

(59) Cellulose fiber is commonly used in the production of paper.

(60) The reticulitermes termites feed on cellulose found in wood.

Sentence with cellulose

(61) Cellulosics are a group of materials derived from cellulose.

(62) The hemi-cellulose in plants is used for biofuel production.

(63) Triethyl is commonly used as a solvent for cellulose acetate.

(64) Cuprammonium cellulose is used in the production of textiles.

(65) Acetylic acid is used in the production of cellulose acetate.

(66) The use of enzymes can help transform cellulose into ethanol.

(67) Termites feed on wood, cellulose and other organic materials.

(68) Ethyl chloride is used as a solvent for cellulose derivatives.

(69) Cellulose acetate is a type of plastic derived from cellulose.

(70) The CMC compound is derived from cellulose, a natural polymer.

Use cellulose in a sentence

(71) Microfibrils are composed of long, linear chains of cellulose.

(72) The biodegradable packaging film is made from plant cellulose.

(73) We need to insulate by means of blown-in cellulose insulation.

(74) Cellulases are enzymes that break down cellulose into glucose.

(75) Termites are able to digest cellulose, which is found in wood.

(76) Insulation material is often made from fiberglass or cellulose.

(77) The enzyme cellulase saccharifies cellulose into glucose units.

(78) Cellulose-based membranes are used in water filtration systems.

(79) Hemicelluloses are more soluble in water compared to cellulose.

(80) The walls were insulated with cellulose to keep the house warm.

Sentence using cellulose

(81) The caeca of insects play a role in the breakdown of cellulose.

(82) The larvae of woodborers feed on the cellulose present in wood.

(83) Eukaryotes, such as plants, have a cell wall made of cellulose.

(84) Some detritivores, like woodlice, are able to digest cellulose.

(85) Microfibrils are composed of cellulose, a complex carbohydrate.

(86) Nonruminant species are unable to digest cellulose efficiently.

(87) The crosslinking of cellulose can enhance the strength of paper.

(88) The diet of termites consists mainly of cellulose found in wood.

(89) Cellulose acetate is known for its high strength and durability.

(90) The bagasse is rich in cellulose and can be used as animal feed.

Cellulose example sentence

(91) The urochord's tunic is made up of a substance called cellulose.

(92) The thermolysis of cellulose can yield glucose and other sugars.

(93) The ascidian's tunic is made up of a substance called cellulose.

(94) Thf is often used as a solvent for the dissolution of cellulose.

(95) Some medications contain cellulose fiber as a filler ingredient.

(96) The cellulose was degraded enzymatically by bacteria in the gut.

(97) The hemi-cellulose in plants is used to make paper and textiles.

(98) The production of cellulose acetate requires a chemical process.

(99) The cell-plate is made up of cellulose and other polysaccharides.

(100) The endexine is made up of cellulose and other organic compounds.

Sentence with word cellulose

(101) The Congo red dye exhibited strong affinity for cellulose fibers.

(102) The termites chewed through the wood to mange upon its cellulose.

(103) Gribbles have a unique ability to digest cellulose found in wood.

(104) The cross-linking of cellulose fibers can improve paper strength.

(105) The tunicate's tunic is composed of a substance called cellulose.

(106) The white ant workers feed on cellulose-rich materials like wood.

(107) Collenchymas are composed of cellulose and other polysaccharides.

(108) The bagasse is rich in cellulose and can be used for animal feed.

(109) The attic was insulated by means of blown-in cellulose insulation.

(110) The blindgut is a site for digestion of cellulose in some animals.

Sentence of cellulose

(111) The acetylated cellulose was used as a coating for food packaging.

(112) Hydrolysing cellulose is important for the production of biofuels.

(113) The caeca of insects are important for the digestion of cellulose.

(114) The termite's ability to digest cellulose is unique among insects.

(115) Propanone is often used as a solvent for cellulose-based materials.

(116) The cecum contains bacteria that aid in the digestion of cellulose.

(117) The transformation of cellulose can produce ethanol as a byproduct.

(118) The enzyme was found to have the ability to depolymerize cellulose.

(119) The insulation material used to insulate the ceiling was cellulose.

(120) The rumens of cows contain bacteria that help break down cellulose.

Cellulose used in a sentence

(121) Megass can be used as a source of cellulose for biofuel production.

(122) The caecal bacteria play a crucial role in breaking down cellulose.

(123) Nitrocelluloses are commonly used as a base for cellulose lacquers.

(124) The composition of hemicellulose differs from cellulose and lignin.

(125) Actinomycetous organisms, break down cellulose in plant cell walls.

(126) Methanogen, help in the digestion of cellulose in ruminant animals!

(127) Acetin is used as a solvent in the production of cellulose acetate.

(128) Lignocellulose is composed of lignin, cellulose, and hemicellulose.

(129) The acid hydrolysis depolymerised the cellulose into glucose units.

(130) The unhydrolyzed cellulose was not able to be digested by the body.

Cellulose sentence in English

(131) The termite's digestive system allows them to break down cellulose.

(132) The cecum is responsible for breaking down cellulose in herbivores.

(133) Cellobiose is a common intermediate in the degradation of cellulose.

(134) Arundo is often used as a biofuel due to its high cellulose content.

(135) The exoenzyme is involved in the degradation of cellulose in plants.

(136) We can insulate the walls by means of blown-in cellulose insulation.

(137) Cuprammonium cellulose is used in the production of sausage casings.

(138) Cellulose is a type of cellulous material found in plant cell walls.

(139) Insulate with cellulose to reduce noise pollution in your apartment.

(140) Starch and cellulose are examples of polysaccharides found in plants.

(141) Hydrolyzing cellulose into glucose can be used to produce bioethanol.

(142) Cellose is a type of cellulose derivative used in various industries.

(143) The symbiont bacteria in the termite's gut help break down cellulose.

(144) Hindgut fermentation allows animals to extract energy from cellulose.

(145) Leucoplasts are involved in the conversion of glucose into cellulose.

(146) The rumens of goats contain microorganisms that break down cellulose.

(147) Denaturising the lignin will make it easier to extract the cellulose.

(148) The production of wood alcohol involves the fermentation of cellulose.

(149) The term CTP refers to the process of Cellulose Triacetate Production.

(150) The saccharification of cellulose is a key step in biofuel production.

(151) Cellulose acetate is also used in the production of photographic film.

(152) Cellulose is a complex carbohydrate found in the cell walls of plants.

(153) The enzymolysis of cellulose is essential for the production of paper.

(154) The clothing industry often incorporates cellulose fiber into fabrics.

(155) Cellulose fiber is derived from plant sources such as wood and cotton.

(156) The depolymerization of cellulose can be catalyzed by certain enzymes.

(157) The anabolism of starch in plants leads to the formation of cellulose.

(158) Cuprammonium cellulose is used in the production of photographic film.

(159) The bovine rumen is a fermentation chamber that breaks down cellulose.

(160) Acetic acid is a key ingredient in the production of cellulose acetate.

(161) Cellulose derivatives are commonly used in pharmaceutical formulations.

(162) The nitrated cellulose was used to make explosives during World War II.

(163) Cellulose fibers can be chemically modified to enhance their properties.

(164) Cellulose fibers can be spun into yarn and used in the textile industry.

(165) The hydrolysis of cellulose is a key step in the production of biofuels.

(166) The caecum is involved in the breakdown of cellulose in certain animals.

(167) The chemical structure of hemicelluloses differs from that of cellulose.

(168) The biolysis of cellulose by bacteria is a key step in the carbon cycle.

(169) Many food products contain cellulose fiber as a dietary source of fiber.

(170) Cellulose fiber is an important component in the production of biofuels.

(171) Cellulose fiber is commonly used in the production of cigarette filters.

(172) The urochord's body is enclosed in a protective tunic made of cellulose.

(173) Cellulose acetate is a cost-effective material that is widely available.

(174) The plant kingdom is composed of cells with cell walls made of cellulose.

(175) Microcrystalline cellulose is a common ingredient in dietary supplements.

(176) The chemist used an enzyme to hydrolyze the cellulose into glucose units.

(177) The urochordate body is covered by a tough outer tunic made of cellulose.

(178) Formamide is commonly used as a solvent for the dissolution of cellulose.

(179) The enzymolysis of cellulose is a key step in the production of biofuels.

(180) Researchers are studying new methods to efficiently saccharify cellulose.

(181) The depolymerizing enzyme efficiently breaks down cellulose into glucose.

(182) The researcher used a high-speed blender to peptize the cellulose fibers.

(183) Propionic acid is used in the production of cellulose acetate propionate.

(184) Acetic-anhydride is commonly used in the production of cellulose acetate.

(185) The cyanoethylated cellulose was found to have improved water solubility.

(186) The derivatized cellulose was used as a matrix for drug delivery systems.

(187) Acetic anhydride is commonly used in the production of cellulose acetate.

(188) Cellulose triacetate is also used in the production of cigarette filters.

(189) Insulate with blown-in cellulose to improve the air quality in your home.

(190) The reticulitermes termites have a unique ability to break down cellulose.

(191) Cellulose is often used as a filler in processed foods to increase volume.

(192) Cellulose acetate is commonly used in the production of cigarette filters.

(193) The monogastric digestive system is less efficient at utilizing cellulose.

(194) Starch along with cellulose forms the main components of plant cell walls.

(195) The gribble's digestive system contains enzymes that break down cellulose.

(196) Cellulose microfibrils are the most common type found in plant cell walls.

(197) The body of ascidians is covered by a tough outer tunic made of cellulose.

(198) The carboxylated cellulose was used as a biodegradable packaging material.

(199) Methylcellulose is a water-soluble polymer that is derived from cellulose.

(200) The production of guncottons involves treating cellulose with nitric acid.

(201) Cellulose acetate is a renewable resource that can be sustainably sourced.

(202) The abomasum is responsible for breaking down cellulose in plant material.

(203) Ethyl cellulose is a polymer used in the production of coatings and films.

(204) The enzyme's function is to hydrolyze the cellulose into glucose molecules.

(205) Cellulose acetate is commonly used as a film base in the printing industry.

(206) Cellulose fibers are commonly used in the production of paper and textiles.

(207) Endosymbiotic bacteria in termites help break down cellulose in their diet.

(208) Some cleaning products contain cellulose fiber for its absorbent qualities.

(209) The hydrolytic degradation of cellulose is carried out by specific enzymes.

(210) The bacteria in the cow's rumen help it break down cellulose symbiotically.

(211) Depolymerizing cellulose can yield glucose, which can be used as a biofuel.

(212) The termite's digestive system allows them to break down cellulose in wood.

(213) The endexine layer of the pollen grain is composed of cellulose and pectin.

(214) The midgut of a grasshopper is where cellulose is broken down into glucose.

(215) Cellulose acetate is a popular material for the production of guitar picks.

(216) The ruminant's ability to digest cellulose sets it apart from other animals.

(217) The reticulitermes termites are highly efficient at breaking down cellulose.

(218) The researchers depolymerized the cellulose fibers to create a new material.

(219) Ruminants have a specialized enzyme called cellulase to break down cellulose.

(220) Mutualistic bacteria in the intestines of termites help break down cellulose.

(221) The high fiber content of cellulose makes it beneficial for digestive health.

(222) The presence of cellulose in plant-based foods provides a feeling of satiety.

(223) Glycosidic bonds are also found in polysaccharides like starch and cellulose.

(224) The excipient added to this powder formulation is microcrystalline cellulose.

(225) Acetic anhydride is used as a solvent in the production of cellulose acetate.

(226) Cotton is used in the production of paper and other cellulose-based products.

(227) The hydrolysing of cellulose is a crucial step in the production of biofuels.

(228) Some dietary supplements contain cellulose fiber to support digestive health.

(229) The discovery of cellulase revolutionized the field of cellulose degradation.

(230) The food industry often uses cellulose as a bulking agent in processed foods.

(231) Termites are able to digest cellulose with the help of bacteria in their gut.

(232) The termite's ability to break down cellulose is important for the ecosystem.

(233) Cellulose acetate is commonly used in the manufacturing of cigarette filters.

(234) Cellulose acetate is a cost-effective alternative to other types of plastics.

(235) The hydrolysis of cellulose is important for the breakdown of plant material.

(236) The propionic bacteria in the rumen of cows aid in the digestion of cellulose.

(237) Cellulose filters are used in laboratories to separate particles from liquids.

(238) Cellulases are enzymes that break down cellulose into smaller sugar molecules.

(239) The deacetylation of cellulose can improve its solubility in certain solvents.

(240) The chylifications of cellulose is important for maintaining bowel regularity.

(241) The sulphonation of cellulose can improve its dyeability and water resistance.

(242) Acetylating is a common method for preparing acetylated cellulose derivatives.

(243) The human body can metabolize a wide range of nutrients, except for cellulose.

(244) Celloidin is a type of cellulose nitrate that is soluble in ether and alcohol.

(245) The carboxylated cellulose was a promising material for sustainable packaging.

(246) The digesta in the rabbit's cecum is important for the digestion of cellulose.

(247) The depolymerization of cellulose can be achieved through enzymatic hydrolysis.

(248) Microcrystalline cellulose is often used as a filler in pharmaceutical tablets.

(249) Mutualistic fungi in the gut of wood-feeding insects help break down cellulose.

(250) The ruminant's digestive system is highly efficient at breaking down cellulose.

(251) Symbiotic fungi in the gut of termites help break down cellulose in their diet.

(252) The biolysis of cellulose is important for the decomposition of plant material.

(253) Cellulose fiber is often used in the manufacturing of insulation for buildings.

(254) Some cosmetic products contain cellulose fiber for its moisturizing properties.

(255) Cellulase is an enzyme that breaks down cellulose into smaller sugar molecules.

(256) Hemicellulose is less resistant to enzymatic degradation compared to cellulose.

(257) Researchers are studying the depolymerization of cellulose to produce biofuels.

(258) Propanol is used as a solvent for cellulose acetate in the production of films.

(259) The omasum helps in the breakdown of cellulose and other complex carbohydrates.

(260) The primary cell wall of collenchyma cells is composed of cellulose and pectin.

(261) The termite's mouth-parts are capable of breaking down tough cellulose in wood.

(262) The ruminal protozoa are important for the breakdown of cellulose in the rumen.

(263) The peptization of cellulose fibers can enhance their strength and flexibility.

(264) Some common diluents include lactose, mannitol, and microcrystalline cellulose.

(265) The hydrolysis of cellulose is an important step in the production of biofuels.

(266) The cross-linking of cellulose fibers can improve their strength and durability.

(267) The cell walls of red algae are composed of cellulose and other polysaccharides.

(268) Symbiotic bacteria in the rumen of cows help break down cellulose in their diet.

(269) The hydrolysis of cellulose is a complex process that requires specific enzymes.

(270) The glycosidic bond in cellulose connects glucose molecules in a linear fashion.

(271) The ability to depolymerize cellulose is crucial for the production of biofuels.

(272) The multichambered digestive system of a cow aids in the breakdown of cellulose.

(273) The biolyses of cellulose by cellulase enzyme breaks it down into glucose units.

(274) Cellulolytic enzymes are essential for the digestion of cellulose in herbivores.

(275) The process of hydrolysis can be used to hydrolyze cellulose into glucose units.

(276) The breakdown of cellulose in the rumen of cows is a result of bacterial action.

(277) The saccharifying of cellulose is a key challenge in the production of biofuels.

(278) The presence of methanogens in the gut of ruminants helps them digest cellulose.

(279) Cellulose acetate is often used in the production of high-quality paint brushes.

(280) The production of cellulose acetate requires specialized equipment and expertise.

(281) Cellulose degradation by microorganisms plays a crucial role in the carbon cycle.

(282) Cellulose-based plastics are biodegradable and have a lower environmental impact.

(283) Bagasses can be used as a source of cellulose for the production of bio-plastics.

(284) Cellulose triacetate is commonly used in the manufacturing of photographic films.

(285) The peptization of cellulose fibers improves their dispersibility in papermaking.

(286) Shipworms have a specialized enzyme that helps them break down cellulose in wood.

(287) The hydrolyzing of cellulose in plants is important for the release of nutrients.

(288) The process of hydrolyzing cellulose is important for the production of biofuels.

(289) Many types of film, including photographic film, are made from cellulose acetate.

(290) Some types of packaging, such as food packaging, are made from cellulose acetate.

(291) Cellulose acetate is a non-toxic material that is safe for use in food packaging.

(292) The stomachs of ruminants have a fermentation chamber for breaking down cellulose.

(293) The use of cellulose acetate in the textile industry has been steadily increasing.

(294) The chemical structure of cellulose consists of glucose molecules linked together.

(295) Researchers are studying the effects of hydrolyzing cellulose to produce biofuels.

(296) Acetamide is used as a plasticizer in the production of cellulose-based materials.

(297) Cellulose fiber is a key ingredient in the production of paper towels and tissues.

(298) Cellulose fiber is an important component in the production of bio-based plastics.

(299) The walls can be insulated with blown-in cellulose for better thermal performance.

(300) The enzymic degradation of cellulose was important for the production of biofuels.

(301) The dye molecules chemisorbed onto the cellulose fibers, creating a vibrant color.

(302) The cecum is home to a variety of bacteria that aid in the breakdown of cellulose.

(303) Denatured cellulose loses its structural integrity, which can affect plant growth.

(304) The saccharification of cellulose is a rate-limiting step in bioethanol production.

(305) Hydrolyzing cellulose in the presence of cellulase produces glucose and cellobiose.

(306) The biolysis of cellulose in the rumen of cows is carried out by microbial enzymes.

(307) Cellulose is a polysaccharide that provides structural support in plant cell walls.

(308) The hydrolysing of cellulose is a challenging process due to its complex structure.

(309) The breakdown of cellulose in the rumen of cows is facilitated by bacterial action.

(310) Microfibrils, which are composed of cellulose, play a crucial role in plant growth.

(311) Enzymes are used to saccharify the cellulose in plant material to produce biofuels.

(312) The cyanoethylated cellulose acetate was used as a membrane material in fuel cells.

(313) Chloroacetic acid is a key ingredient in the production of carboxymethyl cellulose.

(314) The hydrolyzate of cellulose is used in the production of biofuels and bioplastics.

(315) The properties of cellulose acetate make it a popular material for eyeglass frames.

(316) Cellulose acetate is biodegradable, making it an eco-friendly option for packaging.

(317) The use of cellulose acetate in textiles can improve their durability and strength.

(318) Cellulose acetate is a common material in the production of adhesives and sealants.

(319) Cellulose-based composites are being investigated for their strength and durability.

(320) The hydrolytic breakdown of cellulose is important for the production of bioethanol.

(321) The abomasus is responsible for the breakdown of cellulose in the diet of ruminants.

(322) The acetylation of cellulose can improve its properties for industrial applications.

(323) The egesta of kangaroos contain specialized bacteria for the digestion of cellulose.

(324) The thickened cell walls of sclerenchyma cells are composed of cellulose and lignin.

(325) Some bacteria are able to convert cellulose into glucose for their own energy needs.

(326) Chloracetic acid is a key intermediate in the production of carboxymethyl cellulose.

(327) The chemical structure of cellulose acetate makes it resistant to moisture and heat.

(328) Cellulose acetate is often used as a base material for the production of nail polish.

(329) Cellulose gum is a common additive in food products to improve texture and stability.

(330) Cellulases are capable of breaking down cellulose fibers into individual sugar units.

(331) The manufacturing process of guncottons involves treating cellulose with nitric acid.

(332) The vat dye reacts with the fabric's cellulose fibers, resulting in a permanent bond.

(333) Ruminant animals have a unique ability to convert plant cellulose into usable energy.

(334) The depolymerisation of the cellulose resulted in the formation of glucose molecules.

(335) The endozoic bacteria that live within the gut of termites help break down cellulose.

(336) The molecular structure of cellulose determines its role in the cell walls of plants.

(337) The process of making cellulose acetate involves treating cellulose with acetic acid.

(338) Cellulose acetate is a durable material, and it can withstand a lot of wear and tear.

(339) Cellobiose can be used as a substrate for the production of cellulose-based materials.

(340) The fiberization of cellulose from wood pulp is a key step in the production of rayon.

(341) The peptisation of the cellulose fibers improved their dispersibility in the solution.

(342) The biolysis of cellulose in the gut of termites is carried out by symbiotic bacteria.

(343) Cellulose fiber is an essential component in the production of biodegradable plastics.

(344) Cellulose fiber is a versatile material that finds applications in various industries.

(345) Cellulose triacetate is often used as a binder in the production of ceramic materials.

(346) Cuscuses have a specialized digestive system that allows them to break down cellulose.

(347) The microfauna in the gut of termites plays a crucial role in breaking down cellulose.

(348) Starch and cellulose are examples of polysaccharose that are commonly found in plants.

(349) Cellulose triacetate is a type of plastic used in the production of photographic film.

(350) Sloths have a specialized digestive system to break down the tough cellulose in leaves.

(351) Researchers are studying the mechanism of hydrolysing cellulose for biofuel production.

(352) The teredos' ability to digest cellulose allows them to survive in wooden environments.

(353) Some saprotrophs are able to break down complex molecules such as lignin and cellulose.

(354) The sacculate shape of the cecum in some animals helps with the digestion of cellulose.

(355) Biopolymers can be found in a variety of natural sources, such as cellulose and chitin.

(356) Some saprotrophs are able to break down complex compounds such as lignin and cellulose.

(357) Cellulose acetate is a versatile material, and it is used in a variety of applications.

(358) Cellulose acetate is commonly used as a binder in the production of paints and coatings.

(359) The demand for cellulose acetate has been steadily growing in the construction industry.

(360) Cellulose insulation is an eco-friendly alternative to traditional insulation materials.

(361) Chytrids have been found to have a role in the breakdown of cellulose in plant material.

(362) Cellulose fiber is often used in the production of paper currency to enhance durability.

(363) Dinoflagellates have a unique cell structure with cellulose plates that provide support.

(364) The saccharification of cellulose is a challenging process due to its complex structure.

(365) The strength of cellulose fibers is due to the hydrogen bonds between glucose molecules.

(366) Cellulose acetate is a biodegradable material that is often used in sustainable fashion.

(367) The unique properties of cellulose acetate make it suitable for use in the medical field.

(368) The production of cellulosics involves the extraction and processing of cellulose fibers.

(369) Dioxane is often used as a solvent for cellulose-based materials in the textile industry.

(370) The process of charring wood can reduce to carbon the cellulose and lignin present in it.

(371) Some types of cellulose fiber, such as rayon, are made from chemically treated wood pulp.

(372) The cell walls of charophytes are made up of cellulose and other complex polysaccharides.

(373) The sacculated structure of the cecum in some animals aids in the breakdown of cellulose.

(374) The molecular structure of cellulose is responsible for the rigidity of plant cell walls.

(375) The properties of cellulose acetate make it an ideal material for use in medical devices.

(376) The production of cellulose acetate involves the use of acetic acid and cellulose fibers.

(377) Cellulose acetate is a type of plastic commonly used in the production of eyeglass frames.

(378) The use of cellulose acetate in the production of adhesives has increased in recent years.

(379) Triacetin is often used as a plasticizer in the manufacturing of cellulose-based plastics.

(380) The production of cellulase is influenced by the availability of cellulose as a substrate.

(381) The grinding process helps to break down the cellulose in bamboo for various applications.

(382) Clothing made from cellulose fiber, such as cotton, is breathable and comfortable to wear.

(383) Cell-walls are made up of various types of macromolecules, including cellulose and lignin.

(384) Xyloidin is a type of cellulose nitrate that is used in the production of artificial silk.

(385) The birch tree is a popular choice for paper production due to its high cellulose content.

(386) The use of cellulose acetate in the textile industry has been on the rise in recent years.

(387) Cellulose acetate is a versatile material that can be used in a wide range of applications.

(388) Cellulose-based materials are being explored for their potential in biomedical engineering.

(389) The cuprammonium process involves dissolving cellulose in a solution of copper and ammonia.

(390) The biolyses of cellulose by certain bacteria helps in the decomposition of plant material.

(391) The construction industry utilizes cellulose fiber as a reinforcement material in concrete.

(392) Cellulose fiber is commonly used in the production of textiles for the automotive industry.

(393) The manufacturing process for nitrocelluloses involves treating cellulose with nitric acid.

(394) Cellulase is commonly used in the textile industry to remove cellulose fibers from fabrics.

(395) The plant kingdom is composed of multicellular organisms with cell walls made of cellulose.

(396) Cellulose microfibrils have a high degree of crystallinity, contributing to their strength.

(397) Propanone is used as a solvent for cellulose acetate in the production of films and fibers.

(398) The commensally associated bacteria aid in the digestion of cellulose in the cow's stomach.

(399) The team is working on a new enzyme that can convert cellulose to ethanol more efficiently.

(400) Cellulose fiber is a natural material found in plants that provides strength and structure.

(401) The acid solution was able to depolymerize the cellulose into its individual glucose units.

(402) Cellulose acetate is a biodegradable material, so it is an environmentally friendly option.

(403) Cellulose acetate is a versatile material that can be molded into various shapes and forms.

(404) The use of cellulose acetate in the production of textiles can improve their breathability.

(405) Cellulose acetate is a popular material for the production of packaging films and coatings.

(406) The manufacturing process of cellulose acetate involves treating cellulose with acetic acid.

(407) The use of cellulose acetate in the production of packaging materials has gained popularity.

(408) Cellulose nanocrystals have unique properties that make them useful in various applications.

(409) The zymolytic breakdown of cellulose produces sugars that can be used in biofuel production.

(410) The selenodont tooth structure allows animals to efficiently break down cellulose in plants.

(411) The effectiveness of cellulase in breaking down cellulose depends on its specific structure.

(412) The depolymerization of cellulose can be a challenging process due to its complex structure.

(413) The microfibril's composition was analyzed, and it was found to consist mainly of cellulose.

(414) The ability to saccharify cellulose efficiently is a major breakthrough in biofuel research.

(415) The cell walls of desmids are made of a unique type of cellulose that is resistant to decay.

(416) The use of cellulose acetate in the production of sunglasses has been growing in popularity.

(417) Cellulose acetate is a renewable resource, making it a sustainable option for manufacturing.

(418) The saccharification of hemicellulose is often performed prior to cellulose saccharification.

(419) Cellulose acetate is a cost-effective alternative to other materials in certain applications.

(420) The microflora in the digestive system of ruminant animals aid in the breakdown of cellulose.

(421) Cellulases are capable of breaking down complex cellulose structures into simpler components.

(422) Cellulose fiber is often used in the manufacturing of filters for air and water purification.

(423) Cellulose fiber is commonly used in paper production due to its high strength and durability.

(424) The human body cannot digest cellulose fiber, making it an important source of dietary fiber.

(425) Cellulose acetate is a renewable resource, so it is a sustainable option for many industries.

(426) The chemical structure of cellulose acetate allows it to be easily molded into various shapes.

(427) The cellulose content in fruits and vegetables contributes to their overall nutritional value.

(428) Etherified cellulose derivatives are widely used in the pharmaceutical industry as excipients.

(429) Triacetate is a type of cellulose acetate that is commonly used in the production of textiles.

(430) Cellulose triacetate is commonly used as a binder in the production of pharmaceutical tablets.

(431) Cellulose triacetate is commonly used as a base material for the production of magnetic tapes.

(432) The chemical properties of cellulose acetate make it resistant to many chemicals and solvents.

(433) Sapwood is commonly used in the production of paper and pulp due to its high cellulose content.

(434) Endosymbiotic bacteria in the intestines of ruminant animals aid in the digestion of cellulose.

(435) The textile industry relies on cellulose fiber for the production of rayon and viscose fabrics.

(436) Cellulose fiber can be chemically modified to enhance its properties for specific applications.

(437) By depolymerizing the cellulose fibers, the researchers were able to extract valuable biofuels.

(438) The depolymerization of cellulose can yield sugars that are used in the production of biofuels.

(439) The presence of methanogens in the gut of termites allows them to efficiently digest cellulose.

(440) The insulation will be more effective if you mix with fibrous particles like wool or cellulose.

(441) The peptisation of cellulose fibers can improve the strength and flexibility of paper products.

(442) The plasticizing of cellulose fibers makes them more suitable for use in textiles and clothing.

(443) The properties of cellulose acetate make it an excellent material for the production of filters.

(444) Hemicellulose can be selectively removed from plant biomass to improve the quality of cellulose.

(445) Methanogens are crucial for the functioning of rumen in cows, as they help break down cellulose.

(446) Methanogens have been found in the intestines of termites, aiding in the digestion of cellulose.

(447) The endosymbiont relationship between termites and gut microbes allows them to digest cellulose.

(448) The durability of cellulose acetate makes it a popular material for use in furniture production.

(449) The use of cellulose acetate in the food industry is limited due to its low solubility in water.

(450) The low moisture absorption of cellulose triacetate makes it ideal for use in humid environments.

(451) Cellulose fiber is also used in the production of biodegradable plastics and packaging materials.

(452) The use of cellulose acetate in the production of packaging materials has helped to reduce waste.

(453) Cellulose acetate is a thermoplastic material, so it can be molded into various shapes and forms.

(454) Microcrystalline cellulose is an important component in the formulation of pharmaceutical tablets.

(455) Lagomorphs have a unique digestive system that allows them to efficiently process plant cellulose.

(456) Cellulose triacetate is a type of cellulose derivative used in the production of films and fibers.

(457) Cellulose triacetate is commonly used as a film material for the production of flexible packaging.

(458) The ascidian's tunic is made up of a substance called cellulose, which gives it its tough texture.

(459) The lyotropic behavior of cellulose in solution is of great interest in the field of biomaterials.

(460) Cellulose acetate is a type of plastic that is commonly used in the production of eyeglass frames.

(461) The properties of cellulose acetate make it an ideal material for the production of optical lenses.

(462) The production of cellulose acetate involves a series of chemical reactions and purification steps.

(463) The production of cellulose acetate involves strict quality control measures to ensure consistency.

(464) The use of cellulose triacetate in the production of medical dressings helps promote wound healing.

(465) The saccharification of cellulose is a rate-limiting step in the conversion of biomass to biofuels.

(466) The salp's gelatinous body is made up of a substance called tunicin, which is similar to cellulose.

(467) Cellulose acetate is a lightweight material that is often used in the production of aircraft parts.

(468) The production of cellulose acetate requires specialized equipment, but the end result is worth it.

(469) The enzymatic conversion of cellobiose to glucose is a crucial step in the utilization of cellulose.

(470) The production of cellulose triacetate involves the acetylation of cellulose using acetic anhydride.

(471) The thermal stability of cellulose triacetate allows it to be used in high-temperature applications.

(472) The plasticization of cellulose can make it more resistant to water and other environmental factors.

(473) Cellulose acetate is a highly flammable material, so it must be handled with care during production.

(474) Cellulose-based materials have potential applications in the development of renewable energy sources.

(475) The cellulose will dehydroxylate into a more crystalline structure upon treatment with sulfuric acid.

(476) Some enterobacteria are capable of producing enzymes that can break down cellulose in plant material.

(477) The versatility of cellulose acetate makes it a popular choice for use in a wide range of industries.

(478) Enzymes are often used to catalyze the hydrolysis of various compounds, such as starch and cellulose.

(479) Cellulose microfibrils have a high aspect ratio, making them suitable for reinforcement in composites.

(480) Cellulose fiber is a renewable resource that can be sustainably harvested from trees and other plants.

(481) The desmid cell wall is composed of cellulose and pectin, providing structural support and protection.

(482) The hydrolysis of cellulose is an important process in the production of biofuels from plant material.

(483) The properties of cellulose acetate make it a suitable material for the production of medical devices.

(484) The study of cellulases has contributed to our understanding of the microbial degradation of cellulose.

(485) The intermolecular forces between the cellulose molecules link fibrous chains to form plant cell walls.

(486) Cellulose acetate is commonly used as a coating for tablets and capsules in the pharmaceutical industry.

(487) The high tensile strength of cellulose triacetate allows for the production of durable films and fibers.

(488) Cellulose triacetate is commonly used as a film-forming agent in the production of paints and varnishes.

(489) Methanogens are often found in the intestines of termites, where they aid in the digestion of cellulose.

(490) The classification of Plantae is based on the presence of chloroplasts and cell walls made of cellulose.

(491) The versatility of cellulose acetate makes it a popular choice among manufacturers in various industries.

(492) The production of nitrocellulose involves treating cellulose with a mixture of nitric and sulfuric acids.

(493) The high optical clarity of cellulose triacetate makes it suitable for use in optical lenses and filters.

(494) The trisaccharide cellobiose is a breakdown product of cellulose and is found in some fungi and bacteria.

(495) Cellulose triacetate is often used as a coating material for optical lenses to improve scratch resistance.

(496) The bacteria in the digestive system of ruminant animals ammonified, aiding in the breakdown of cellulose.

(497) The ethylation of cellulose can improve its solubility and make it more useful in industrial applications.

(498) The high solubility of cellulose triacetate makes it a popular material for use in coatings and adhesives.

(499) The production of cellulose acetate involves several steps, but the end result is a high-quality material.

(500) The sea squirt's tough outer covering is made of a substance called tunicin, which is similar to cellulose.

(501) Cellulose triacetate is a biodegradable material that is commonly used in the production of food packaging.

(502) Cellulose triacetate is a type of thermoplastic that is commonly used in the production of medical devices.

(503) The use of cellulose acetate in the production of eyewear can result in lightweight and comfortable frames.

(504) The glycosidic bonds between the glucose molecules link fibrous chains to form the cellulose fibers in wood.

(505) Some animals, like cows, have a specialized stomach that allows them to synthesize nutrients from cellulose.

(506) Micro-organisms can be found in the digestive system of termites, and they aid in the breakdown of cellulose.

(507) Cellulose fiber is resistant to moisture and can be used in outdoor applications such as decking and fencing.

(508) Cellulose triacetate is a type of cellulose ester that is commonly used in the production of eyeglass frames.

(509) The hydrolysis of cellulose, a complex carbohydrate found in plant cell walls, is a key step in this process.

(510) The esophagi of some animals, such as cows and sheep, contain bacteria that aid in the digestion of cellulose.

(511) The chemical structure of laminarin is similar to that of cellulose, another type of plant-based carbohydrate.

(512) The cell walls of spirogyra are made up of cellulose, a complex carbohydrate that provides structural support.

(513) The saccharification of hemicellulose is often carried out prior to cellulose conversion in biofuel production.

(514) The nitration of cellulose can produce nitrocellulose, a highly flammable material used in explosives and film.

(515) Cellulose microfibrils have a high tensile strength, making them ideal for applications in the textile industry.

(516) By depolymerizing the cellulose, the researchers obtained a solution that could be used as a bio-based adhesive.

(517) By depolymerizing the cellulose fibers, the researchers obtained a solution that could be used as a textile dye.

(518) Methanogens have a symbiotic relationship with certain species of termites, aiding in the digestion of cellulose.

(519) The production of nitrocelluloses involves the nitration of cellulose with a mixture of nitric and sulfuric acid.

(520) The unique properties of cellulose triacetate make it an ideal material for use in the production of LCD screens.

(521) The multichambered digestive system of a cow allows for the breakdown of cellulose through microbial fermentation.

(522) Cellulose nanofibers have unique mechanical properties that make them suitable for various industrial applications.

(523) The chemical structure of cellulose triacetate consists of cellulose molecules that have been partially acetylated.

(524) The properties of cellulose acetate make it ideal for use in textiles, and it is often used in clothing production.

(525) The use of cellulose triacetate in the production of food packaging helps extend the shelf life of perishable goods.

(526) The high tensile strength of cellulose triacetate makes it a popular material for use in the production of textiles.

(527) The chemical structure of cellulose acetate makes it resistant to water, so it is often used in outdoor applications.

(528) Cellulose triacetate is often used as a protective film for electronic devices due to its excellent barrier properties.

(529) Diprotodonts, which have a specialized gut microbiome, can break down cellulose and extract energy from plant material.

(530) The use of cellulose fiber in construction materials can help reduce the environmental impact of the building industry.

(531) The properties of cellulose acetate make it an ideal material for use in medical applications, such as wound dressings.

(532) The production of cellulose fiber requires a complex process of breaking down plant material into its individual fibers.

(533) The excellent dielectric properties of cellulose triacetate make it suitable for use in electrical insulation applications.

(534) The low flammability of cellulose triacetate makes it a popular material for use in the production of electrical insulation.

(535) The use of cellulose triacetate in the production of cigarette filters helps reduce the amount of harmful substances inhaled.

(536) The use of cellulose acetate in the production of cigarette filters has been controversial, but it remains a common practice.

(537) The use of cellulose triacetate in the textile industry allows for the production of fabrics with improved wrinkle resistance.

(538) The homeowner was pleased with the results after insulating through with a combination of fiberglass and cellulose insulation.

(539) The properties of cellulose triacetate make it suitable for applications requiring high transparency and dimensional stability.

(540) The high solubility of cellulose triacetate in organic solvents makes it suitable for the production of coatings and adhesives.

(541) Although denatured cellulose can still be used for some applications, it may not have the same properties as natural cellulose.

(542) The use of cellulose acetate in eyewear production has become increasingly popular, and it is now a common material for frames.

(543) The unique properties of cellulose triacetate make it a popular choice for the production of optical films used in LCD displays.

(544) The use of cellulose acetate in the production of textiles has helped to reduce the environmental impact of the fashion industry.

(545) The high chemical resistance of cellulose triacetate makes it a popular material for use in the production of industrial coatings.

(546) The use of cellulose triacetate in the production of artificial leather provides a more sustainable alternative to genuine leather.

(547) Some animals, such as cows and termites, have specialized gut bacteria that produce carbohydrase to aid in the digestion of cellulose.

(548) The episperm, which is often referred to as the seed coat, is made up of a variety of materials, including cellulose, lignin, and waxes.

(549) Depolymerizing the cellulose fibers, the researchers found that the resulting compounds could be used as a sustainable alternative to petroleum-based products.

(550) While cellulose acetate is a durable material that can withstand a lot of wear and tear, it is not immune to damage from exposure to sunlight, heat, or moisture.

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