Lipid in a sentence

(1) Acetins are a type of lipid.

(2) Tripalmitin is a neutral lipid.

(3) Cholesterol is a type of lipid.

(4) Anandamides are lipid molecules.

(5) Diglycerides are a type of lipid.

(6) Clofibrate is a lipid-lowering agent.

(7) Ubiquinone is a lipid-soluble molecule.

(8) Coenzyme Q is a lipid-soluble molecule.

(9) Superoxide can cause lipid peroxidation.

(10) Acyls are important in lipid metabolism.

Lipid sentence

(11) Axolemmas are composed of a lipid bilayer.

(12) Triglycerides are a type of lipid molecule.

(13) Superoxide can initiate lipid peroxidation.

(14) The axolemma is a site of lipid metabolism.

(15) The cytosol is involved in lipid metabolism.

(16) The axolemma is composed of a lipid bilayer.

(17) The cytoplasm is the site of lipid synthesis.

(18) Phosphatidic plays a role in lipid metabolism.

(19) The sarcolemma is composed of a lipid bilayer.

(20) The cytoplasm is where lipid synthesis occurs.

Lipid make sentence

(21) Ceramide is a lipid molecule found in the skin.

(22) The transmembrane domain spans the lipid bilayer.

(23) The midbody is a site of active lipid metabolism.

(24) The virion can be surrounded by a lipid envelope.

(25) Tripalmitin is a solid lipid with a waxy texture.

(26) Glyceride is a type of lipid found in many foods.

(27) The shell of the cell was made of lipid bilayers.

(28) Sterol is a type of lipid found in cell membranes.

(29) The mitochondrion is involved in lipid metabolism.

(30) Microsome plays a crucial role in lipid metabolism.

Sentence of lipid

(31) Deuterium is used in the study of lipid metabolism.

(32) Acetylating a lipid can alter its membrane fluidity.

(33) Peroxisomes play a crucial role in lipid metabolism.

(34) Apoproteins play a crucial role in lipid metabolism.

(35) The cationic lipid is used in gene delivery systems.

(36) Lipoproteins play a crucial role in lipid metabolism.

(37) Phosphatides play a crucial role in lipid metabolism.

(38) Deficiency of apoproteins can lead to lipid disorders.

(39) The deproteinized plasma was used for lipid profiling.

(40) The microsomal membrane is involved in lipid synthesis.

Lipid meaningful sentence

(41) Phosphatide is a type of lipid found in cell membranes.

(42) Sphingosine is a type of lipid found in cell membranes.

(43) Ganglioside is a type of lipid found in cell membranes.

(44) Phosphatidylglycerol is a key lipid in lung surfactant.

(45) The cell body is protected by a lipid bilayer membrane.

(46) Triacylglycerol is a type of lipid found in many foods.

(47) Hydroperoxide is a common byproduct of lipid oxidation.

(48) The microsome plays a crucial role in lipid metabolism.

(49) The absence of apoproteins can lead to lipid disorders.

(50) Sphingolipid is a type of lipid found in cell membranes.

Lipid sentence examples

(51) Phosphatidic is a type of lipid found in cell membranes.

(52) The cytolysin molecule can form pores in lipid bilayers.

(53) Not managing blood lipid levels can exacerbate diabetes.

(54) Pyrene is often used as a probe to study lipid bilayers.

(55) The nucleocapsids of some viruses have a lipid envelope.

(56) Hepatic lipid metabolism is essential for energy storage.

(57) The enzyme catalyzed the breakdown of the lipid molecule.

(58) Nonprotein molecules can be involved in lipid metabolism.

(59) Sphingomyelin is a type of lipid found in cell membranes.

(60) Sphingolipid ceramide can affect lipid droplet formation.

Sentence with lipid

(61) Phosphatides are a type of lipid found in cell membranes.

(62) Lipid vesicles are commonly used in drug delivery systems.

(63) The thylakoids are surrounded by a lipid bilayer membrane.

(64) Ceramide is a lipid that is naturally present in the body.

(65) Acylating enzymes play a crucial role in lipid metabolism.

(66) The endoplasmic reticulum is involved in lipid metabolism.

(67) The monomeric unit of the lipid was a fatty acid molecule.

(68) Sterol is a type of lipid that is found in cell membranes.

(69) The molecular structure of a lipid affects its solubility.

(70) Acyl transferases are enzymes involved in lipid metabolism.

Use lipid in a sentence

(71) Squalene is a lipid that is naturally produced by the body.

(72) Apolipoprotein is a key determinant of plasma lipid levels.

(73) Thromboxane is a lipid compound involved in blood clotting.

(74) The perinuclear envelope is composed of two lipid bilayers.

(75) Lipin deficiency can result in abnormal lipid accumulation.

(76) Lipid bilayers are composed of two layers of phospholipids.

(77) Allosteries can be modulated by protein-lipid interactions.

(78) VLDL is often measured as part of a lipid panel blood test.

(79) Phosphatidic is involved in the formation of lipid droplets.

(80) Apoproteins are important for maintaining lipid homeostasis.

Sentence using lipid

(81) Unbelievable! Microsome is involved in lipid metabolism too.

(82) Liposome is a spherical vesicle composed of a lipid bilayer.

(83) Eicosanoid is a game-changer in the field of lipid signaling!

(84) Adenyl is a key player in the regulation of lipid metabolism.

(85) Intracytoplasmic lipid droplets are a hallmark of adipocytes.

(86) Deuterium is used in the study of protein-lipid interactions.

(87) LDL can be measured through a blood test called a lipid panel.

(88) Phosphatide is a key player in the process of lipid digestion.

(89) The lysosome is surrounded by a single lipid bilayer membrane.

(90) Phosphatidic is essential for the formation of lipid bilayers.

Lipid example sentence

(91) Lipase is one of the key enzymes involved in lipid metabolism.

(92) Lipin is a potential biomarker for assessing lipid metabolism.

(93) Microsomal membrane proteins are involved in lipid metabolism.

(94) The monomeric unit of a lipid is a single fatty acid molecule.

(95) The transmembrane protein is embedded within the lipid bilayer.

(96) Lipophilic substances can be detected using lipid-based assays.

(97) Lipofuscin is composed of various lipid and protein components.

(98) The myelin sheath is composed of layers of lipid-rich material.

(99) The protein molecule can be modified by adding lipid molecules.

(100) Eicosanoids are involved in the regulation of lipid metabolism.

Sentence with word lipid

(101) Prostacyclin is a lipid mediator derived from prostaglandin H2.

(102) The term cetyl is often used in the context of lipid chemistry.

(103) The acylation of fatty acids is a key step in lipid metabolism.

(104) Lipaemia can lead to inaccurate results in lipid profile tests.

(105) Deficiency of apoprotein can lead to impaired lipid metabolism.

(106) Mutations in the apoprotein gene can result in lipid disorders.

(107) Lipophilic molecules have a higher affinity for lipid bilayers.

(108) Phosphatide is a type of lipid that is found in cell membranes.

(109) Chylomicrons are involved in the regulation of lipid metabolism.

(110) Treating high cholesterol can help improve blood lipid profiles.

Sentence of lipid

(111) Isotopically labeled lipids were used to study lipid metabolism.

(112) Lipin acts as a transcriptional coactivator in lipid metabolism.

(113) The transmembrane domain of the protein spans the lipid bilayer.

(114) Sphingosine is a type of lipid molecule found in cell membranes.

(115) Phospholipid is a type of lipid molecule found in cell membranes.

(116) Mutations in apoproteins can result in inherited lipid disorders.

(117) Transferases are important in the regulation of lipid metabolism.

(118) The chylifactive system plays a crucial role in lipid metabolism.

(119) Lipin is a protein that plays a crucial role in lipid metabolism.

(120) Monoglyceride is a type of lipid commonly found in food products.

Lipid used in a sentence

(121) Glycolipid is a type of lipid that contains a carbohydrate group.

(122) Fenofibrate is a medication that helps regulate lipid metabolism.

(123) Cholesterolemia can be detected through a lipid panel blood test.

(124) The genetic variation of apolipoprotein affects lipid metabolism.

(125) The cell membrane is responsible for the formation of lipid rafts.

(126) Sphingosine is an important component of the skin's lipid barrier.

(127) Hyperlipaemia can be diagnosed through a lipid profile blood test.

(128) Palmitic acid is a major component of the lipid layer in our skin.

(129) Intracytoplasmic lipid droplets store energy reserves in the cell.

(130) Intracytoplasmic lipid metabolism is regulated by various enzymes.

Lipid sentence in English

(131) Lipin regulates the balance between lipid storage and utilization.

(132) Lipin interacts with other proteins to regulate lipid homeostasis.

(133) Phospholipase A1 deficiency can lead to impaired lipid metabolism.

(134) Autophagy is involved in the elimination of excess lipid droplets.

(135) Explore the relationship between eicosanoids and lipid metabolism.

(136) Glycolipids are a type of lipid that contain a carbohydrate chain.

(137) The structure of phospholipids allows them to form a lipid bilayer.

(138) Diacylglycerol is a type of lipid molecule found in cell membranes.

(139) Carboxylating fatty acids is an important step in lipid metabolism.

(140) Low-density lipoprotein can be measured as part of a lipid profile.

(141) The hydrolysing of lipids is an important step in lipid metabolism.

(142) Lipin is a key player in the regulation of lipid droplet formation.

(143) Lipogenic genes play a crucial role in regulating lipid metabolism.

(144) The apoprotein interacts with enzymes involved in lipid metabolism.

(145) Ultrastructurally, the cytoplasm contained numerous lipid droplets.

(146) My doctor advised me to take fenofibrate to improve my lipid panel.

(147) Apoproteins can be used as therapeutic targets for lipid disorders.

(148) Apoproteins are important for the maintenance of lipid homeostasis.

(149) The DNA was vectored into the host cell using a lipid nanoparticle.

(150) Cationic detergents can disrupt the lipid bilayer of cell membranes.

(151) The capsids of enveloped viruses are surrounded by a lipid membrane.

(152) Leukotrienes are lipid mediators involved in inflammatory responses.

(153) Phosphatidic is a key player in the regulation of lipid homeostasis.

(154) Lipolytic processes are important for maintaining lipid homeostasis.

(155) Chylomicrons are a crucial component of the body's lipid metabolism.

(156) Lipoprotein abnormalities can be detected through lipid panel tests.

(157) Deficiency of apolipoprotein can lead to lipid metabolism disorders.

(158) Triacylglycerol is a key component of lipid droplets found in cells.

(159) Diglyceride is a type of lipid molecule found in many food products.

(160) Lipin deficiency can result in abnormal lipid profiles in the blood.

(161) Apoprotein levels can be measured to assess lipid-related disorders.

(162) The cristae are enriched with proteins involved in lipid metabolism.

(163) My physician prescribed fenofibrate to help control my lipid levels.

(164) The plasmalemma is composed of a lipid bilayer and various proteins.

(165) The deficiency of apoprotein can lead to lipid metabolism disorders.

(166) Diglyceride is a type of lipid that is commonly found in many foods.

(167) Intracellular lipid metabolism is regulated by enzymes and hormones.

(168) Lipophilic compounds have a high affinity for lipid-based substances.

(169) HDL cholesterol is one of the components measured in a lipid profile.

(170) Low levels of apolipoproteins can lead to lipid metabolism disorders.

(171) Osmiophilic dyes are often used to visualize lipid droplets in cells.

(172) The function of cephalin in the liver is related to lipid metabolism.

(173) The presence of the enzyme is catalysing the hydrolysis of the lipid.

(174) Apolipoprotein is a key player in the regulation of lipid metabolism.

(175) The levels of apoproteins can be measured to assess lipid metabolism.

(176) The study of apoproteins has provided insights into lipid metabolism.

(177) Stearoyl-CoA desaturase knockout mice exhibit altered lipid profiles.

(178) The cytomembrane is composed of a lipid bilayer and various proteins.

(179) The cytoplast is composed of a lipid bilayer that surrounds the cell.

(180) The thickness of bilayers can vary depending on the lipid composition.

(181) The cisternae of the Golgi apparatus are involved in lipid metabolism.

(182) Chylomicrons are a key component of the body's lipid transport system.

(183) The microsomal fraction contains enzymes involved in lipid metabolism.

(184) Phosphatases are crucial for the dephosphorylation of lipid molecules.

(185) Palmitic acid is often used as a reference compound in lipid analysis.

(186) Peroxy radicals can initiate lipid peroxidation in biological systems.

(187) Apoproteins can bind to specific enzymes involved in lipid metabolism.

(188) The biolysis of lipids in the liver is a key step in lipid metabolism.

(189) The nurse monitored the hyperlipemic patient's lipid levels regularly.

(190) Lipofuscin is a byproduct of lipid peroxidation and protein oxidation.

(191) The side-chain of the lipid molecule can affect its membrane fluidity.

(192) The acrosomal membrane is a lipid bilayer that surrounds the acrosome.

(193) Apolipoprotein is a key player in the regulation of lipid homeostasis.

(194) Blepharoplasts are thought to have evolved from ancient lipid droplets.

(195) Lipofection is a common transfection method using lipid-based reagents.

(196) LDL cholesterol is just one component of a comprehensive lipid profile.

(197) Intracellular lipid droplets store energy-rich molecules for later use.

(198) Chylomicrons are an important component of the body's lipid metabolism.

(199) Triolein is commonly used as a standard in lipid analysis and research.

(200) Pegylated lipids can improve the stability of lipid-based formulations.

(201) Phosphatidic can be enzymatically converted into other lipid molecules.

(202) Apoprotein is a target for drug development in lipid-related disorders.

(203) The vacuolisation of the peroxisomes is important for lipid metabolism.

(204) Lipophilic molecules have a strong affinity for lipid-based substances.

(205) Leukotrienes are lipid mediators involved in the inflammatory response.

(206) Adipogenic pathways are involved in the regulation of lipid metabolism.

(207) The nucleocapsid of the rabies virus is surrounded by a lipid envelope.

(208) The molecular structure of a lipid determines its function in the body.

(209) The cell membrane is composed of amphiphiles that form a lipid bilayer.

(210) The patient's xanthomatous lesions were indicative of a lipid disorder.

(211) Adipogenic proteins are involved in lipid droplet formation and storage.

(212) The lysing of algae cells is necessary for studying their lipid content.

(213) Glycogenic metabolism is closely linked to lipid metabolism in the body.

(214) Dimerization is an important process in the formation of lipid bilayers.

(215) Permeases are often embedded within the lipid bilayer of cell membranes.

(216) Lipoidal metabolism disorders can result in lipid accumulation diseases.

(217) The doctor ordered a lipaemia test to assess the patient's lipid levels.

(218) Lipogenic processes are tightly regulated to maintain lipid homeostasis.

(219) Gangliosides are composed of a lipid tail and a carbohydrate head group.

(220) The role of apoproteins in lipid metabolism is complex and multifaceted.

(221) The derivatized lipid was used as a surfactant in emulsion formulations.

(222) The enzyme phosphorylates the membrane lipid to modulate cell signaling.

(223) Lipidemia can be diagnosed through blood tests that measure lipid levels.

(224) Hypolipoproteinemia can result in abnormal lipid profiles on blood tests.

(225) Apoprotein deficiency can lead to abnormal lipid accumulation in tissues.

(226) The study investigated the conformational stability of the lipid bilayer.

(227) My lipid panel results have shown improvement since starting fenofibrate.

(228) Stearoyl-CoA desaturase deficiency can lead to impaired lipid metabolism.

(229) Stachydrine has been found to have a role in regulating lipid metabolism.

(230) Monoglyceride is a type of lipid that is commonly found in food products.

(231) The molecular structure of a lipid determines its role in cell membranes.

(232) The study of apoproteins is important for understanding lipid metabolism.

(233) Glycolipid is a type of lipid molecule that contains a carbohydrate group.

(234) The perikaryon is protected by a lipid bilayer called the plasma membrane.

(235) Sphingosine is involved in the formation of lipid rafts in cell membranes.

(236) The enzyme phosphorylates the lipid molecule to facilitate cell signaling.

(237) The lipid composition of axolemmas affects their fluidity and flexibility.

(238) Myristic is an important component of the lipid bilayer in cell membranes.

(239) Chylomicrons are a crucial component of the body's lipid transport system.

(240) Prostaglandin is a lipid compound found in almost all tissues of the body.

(241) The transfections were performed using a lipid-based transfection reagent.

(242) Gangliosides are important for the stability and integrity of lipid rafts.

(243) The biochemist discovered a new pathway for lipid metabolism in the liver.

(244) The vacuolated appearance of the liver cells suggested lipid accumulation.

(245) Apolipoprotein is a protein that plays a crucial role in lipid metabolism.

(246) Glycolipids are a type of lipid molecule that contain a carbohydrate chain.

(247) Triolein is a key component of the lipid bilayer that forms cell membranes.

(248) Cephalin is a key player in the formation of lipid rafts in cell membranes.

(249) Phospholipid molecules can form lipid droplets in cells for energy storage.

(250) Glycolipids are involved in the formation of lipid rafts in cell membranes.

(251) Regular exercise can help improve lipid levels in hyperlipemic individuals.

(252) I have been taking fenofibrate for a month now to improve my lipid profile.

(253) Fenofibrate is often prescribed alongside statins for better lipid control.

(254) The protocell is made up of a lipid membrane and contains genetic material.

(255) Diacylglycerol plays a crucial role in lipid metabolism and energy storage.

(256) Cholesterin is a type of lipid that is essential for many bodily functions.

(257) The cytosolic lipid droplets are involved in energy storage and metabolism.

(258) Glycolipids are a type of lipid molecule that contain a carbohydrate group.

(259) The biochemistry lab experiment involved inducing blebs in lipid membranes.

(260) Diglycerides are a type of lipid that can be found in many processed foods.

(261) The enterohepatic system plays a role in the regulation of lipid metabolism.

(262) The endoplasmic reticulum is involved in the regulation of lipid metabolism.

(263) Sphingomyelin is involved in the formation of lipid rafts in cell membranes.

(264) The cocultured muscle cells and adipocytes showed enhanced lipid metabolism.

(265) Lipoprotein particles play a crucial role in lipid transport and metabolism.

(266) Apolipoprotein is a target for therapeutic interventions in lipid disorders.

(267) Apoproteins interact with cell surface receptors to facilitate lipid uptake.

(268) The apoprotein is a target for therapeutic interventions in lipid disorders.

(269) Poxviruses are enveloped viruses, meaning they have an outer lipid membrane.

(270) My doctor explained the benefits of fenofibrate in managing my lipid levels.

(271) Mycolic acid is a major component of the lipid-rich capsule of mycobacteria.

(272) Phytol is a lipid-soluble compound that can easily penetrate cell membranes.

(273) The octadecyl group plays a crucial role in the formation of lipid bilayers.

(274) Lipin interacts with other proteins to regulate lipid synthesis and storage.

(275) The release of calcium from the peroxisomes is involved in lipid metabolism.

(276) Intracellular lipid metabolism is involved in energy production and storage.

(277) Blepharoplasts are composed of a lipid bilayer membrane and various proteins.

(278) Palmitic acid is a major component of the lipid layer that protects the skin.

(279) Apoproteins can be targeted for therapeutic interventions in lipid disorders.

(280) The transmembrane region of the protein is embedded within the lipid bilayer.

(281) The role of apolipoproteins in lipid metabolism has been extensively studied.

(282) The deficiency of certain apolipoproteins can lead to severe lipid disorders.

(283) Adipogenic genes are involved in the regulation of lipid storage and release.

(284) Thromboxane is a lipid signaling molecule with diverse physiological effects.

(285) The sarcosomal lipid content is important for maintaining membrane integrity.

(286) The endoplasm plays a crucial role in protein synthesis and lipid metabolism.

(287) The ultrastructurally analyzed sample revealed the presence of lipid droplets.

(288) The octadecyl chains in the lipid bilayer provide stability to cell membranes.

(289) Glycolipids are involved in the formation of lipid rafts in the cell membrane.

(290) Glycolipids are an essential component of the lipid bilayer in cell membranes.

(291) Squalene is a lipid molecule that is highly stable and resistant to oxidation.

(292) Lipid peroxidation is commonly observed in conditions such as atherosclerosis.

(293) Apolipoprotein is a subject of ongoing research in the field of lipid biology.

(294) Hyperlipemia can be diagnosed through a blood test that measures lipid levels.

(295) Phospholipase enzymes are involved in lipid metabolism and signaling pathways.

(296) Sphingolipids are involved in the regulation of lipid homeostasis in the body.

(297) My doctor advised me to continue taking fenofibrate for optimal lipid control.

(298) Stearoyl-CoA desaturase plays a crucial role in maintaining lipid homeostasis.

(299) Cholesterols are a type of lipid that are essential for many bodily functions.

(300) Apolipoproteins are important biomarkers for assessing lipid-related disorders.

(301) The plant cell has a smooth endoplasmic reticulum that aids in lipid synthesis.

(302) Scientists are studying the interactions between ionophores and lipid bilayers.

(303) The autoxidizing of polyunsaturated fatty acids can lead to lipid peroxidation.

(304) The study of chylomicrons has provided valuable insights into lipid metabolism.

(305) The permease protein is embedded within the lipid bilayer of the cell membrane.

(306) The hyperlipidemic patient's lipid profile showed high levels of triglycerides.

(307) Anandamide is a lipid molecule that binds to cannabinoid receptors in the body.

(308) The amount of apoproteins in the blood can be used to diagnose lipid disorders.

(309) Hyperlipidemia is often diagnosed through blood tests that measure lipid levels.

(310) Stearyl is a key component in the formation of lipid bilayers in cell membranes.

(311) Phosphatidic is important for the formation of lipid rafts in the cell membrane.

(312) The concentration of phosphatidic can be altered by changes in lipid metabolism.

(313) Lipase is an enzyme that plays a crucial role in lipid digestion and metabolism.

(314) Galactosylceramide is a type of lipid found in the myelin sheath of nerve cells.

(315) The interlamellar spacing in a lipid bilayer can be influenced by changes in pH.

(316) Subcellular compartments, such as peroxisomes, are involved in lipid metabolism.

(317) Apolipoproteins are involved in the regulation of lipid storage and utilization.

(318) The coacervation of lipids can lead to the formation of lipid droplets in cells.

(319) Glycerides are a type of lipid that are commonly found in animal and plant fats.

(320) The fluidity of phospholipids is influenced by temperature and lipid composition.

(321) Xanthoma disseminatum is often associated with abnormalities in lipid metabolism.

(322) The detergent was added to the solution to lyse the lipid membranes of the cells.

(323) The role of annexin in the formation of lipid rafts is still under investigation.

(324) Glycosylation is the process of attaching a sugar molecule to a protein or lipid.

(325) Hyperlipidaemia can be diagnosed through a blood test that measures lipid levels.

(326) The formation of a lipid bilayer is a crucial step in membrane-forming processes.

(327) Phospholipids are important for the formation of lipid rafts in the cell membrane.

(328) The endoplasmic reticulum is an organelle involved in protein and lipid synthesis.

(329) The structure of glycolipid consists of a lipid tail attached to a sugar molecule.

(330) Phosphatide is a precursor for the synthesis of other lipid molecules in the body.

(331) Pegylated lipids are used in the formulation of lipid-based drug delivery systems.

(332) VLDL is often measured as part of a lipid profile to assess cardiovascular health.

(333) The amphiphilic structure of the lipid molecule enables it to form cell membranes.

(334) The amphiphile's dual nature allowed it to form a lipid bilayer in cell membranes.

(335) Diacylglycerol is a key player in the regulation of lipid homeostasis in the body.

(336) The goal of the experiment was to break down plasma and analyze its lipid content.

(337) Diacylglycerol is an important component of lipid signaling pathways in the brain.

(338) The octadecyl chains in the lipid molecule contribute to its structural stability.

(339) The non-protein component of a conjugated protein can be a lipid or a carbohydrate.

(340) The formation of bilayers is essential for the stability of lipid-based structures.

(341) High-density lipoprotein is one of the lipoproteins that make up the lipid profile.

(342) High-density lipoprotein is an important component of the lipid metabolism process.

(343) Lysing can be done using detergents to disrupt the lipid bilayer of cell membranes.

(344) Phosphatidylinositol is involved in the formation of lipid rafts in cell membranes.

(345) Hyperlipemic individuals may need to take medication to control their lipid levels.

(346) The cell structure of an endoplasmic reticulum aids in protein and lipid synthesis.

(347) The peroxisome is a cell organelle involved in detoxification and lipid metabolism.

(348) The interlamellar spacing in a lipid bilayer affects its permeability to molecules.

(349) The osmiophilic granules in the cytoplasm indicated the presence of lipid droplets.

(350) Axolemmas have a lipid bilayer that helps maintain the integrity of the nerve cell.

(351) Apolipoproteins are important for the regulation of lipid transport and metabolism.

(352) Adipogenic potential can be assessed through the measurement of lipid accumulation.

(353) The doctor adjusted the dosage of bezafibrate based on the patient's lipid profile.

(354) The role of apolipoprotein in lipid metabolism is complex and not fully understood.

(355) The peroxisomes are cell organelles involved in detoxification and lipid metabolism.

(356) The meibomian glands are responsible for producing the lipid layer of the tear film.

(357) Apolipoproteins interact with receptors on cell surfaces to facilitate lipid uptake.

(358) The endoplasmic reticulum is responsible for protein synthesis and lipid metabolism.

(359) The synaptic vesicle is a complex structure composed of lipid bilayers and proteins.

(360) I have noticed a significant decrease in my lipid levels since starting fenofibrate.

(361) The meibomian glands produce a lipid layer that prevents excessive tear evaporation.

(362) Acylation of the lipid membrane was found to be important for proper cell signaling.

(363) The smooth endoplasmic reticulum is involved in lipid metabolism and detoxification.

(364) Ultracentrifuges are commonly used in the study of lipoproteins and lipid metabolism.

(365) The ultrastructural analysis revealed the presence of lipid droplets within the cell.

(366) Chylomicrons are essential for the proper functioning of the body's lipid metabolism.

(367) The chylifactive pathway is an essential component of lipid digestion and absorption.

(368) Regular monitoring of lipid levels is important for individuals with hyperlipidaemia.

(369) Adipogenic differentiation is often accompanied by an increase in lipid accumulation.

(370) Triacylglycerol is a type of lipid that provides insulation and protection to organs.

(371) The osmiophilic staining pattern revealed the presence of lipid droplets in the cell.

(372) Hyperlipidaemic individuals should exercise regularly to improve their lipid profile.

(373) The study of apolipoproteins has contributed to our understanding of lipid metabolism.

(374) Lipid bilayers play a crucial role in maintaining the integrity of biological systems.

(375) Intracellular lipid metabolism is essential for membrane synthesis and energy storage.

(376) Lipidemia is often treated with medications that help lower lipid levels in the blood.

(377) The study of sterols has led to advancements in our understanding of lipid metabolism.

(378) Anticholesterol supplements can be beneficial for maintaining a healthy lipid profile.

(379) Lipide can be measured through blood tests to assess lipid profile and overall health.

(380) Bilayers can undergo fusion, allowing for the merging of two separate lipid membranes.

(381) Bilayers can exhibit different degrees of fluidity depending on the lipid composition.

(382) The octadecyl chains in the lipid bilayer provide a barrier against water penetration.

(383) The octadecyl chains in the lipid membrane contribute to its fluidity and flexibility.

(384) The amphipathic properties of the lipid bilayer enable the formation of cell membranes.

(385) Galactosylated lipids are important for the formation of lipid rafts in cell membranes.

(386) The tarsal gland is responsible for the production of the lipid layer of the tear film.

(387) Kephalin is a lipid molecule composed of a glycerol backbone and two fatty acid chains.

(388) The doctor recommended regular monitoring of lipid levels for hyperlipidaemic patients.

(389) Diacylglycerol is an important component of lipid droplets, which store neutral lipids.

(390) The osmiophilic properties of the compound made it ideal for studying lipid metabolism.

(391) Triolein is often used in scientific research as a model for studying lipid metabolism.

(392) The serumal lipid profile was checked to evaluate the patient's risk for heart disease.

(393) While clofibrate can improve lipid profiles, it may also cause skin rashes and itching.

(394) The self-assembly of lipid molecules is responsible for the formation of cell membranes.

(395) Diacylglycerol is an important intermediate in the synthesis of various lipid molecules.

(396) Apolipoproteins can be targeted for therapeutic interventions to manage lipid disorders.

(397) The doctor ordered a lipid panel to assess the degree of lipemia in the patient's blood.

(398) Phospholipid molecules are essential for the formation of lipid rafts in cell membranes.

(399) Adipogenic cells have a distinct morphology characterized by lipid droplet accumulation.

(400) The accumulation of diacylglycerol can lead to the formation of lipid droplets in cells.

(401) I have noticed a significant improvement in my lipid profile since starting fenofibrate.

(402) The microsome, which is a membrane-bound organelle, is responsible for lipid metabolism.

(403) Gangliosides, which are a type of lipid molecule, play a crucial role in cell signaling.

(404) Bilayers can form lipid rafts, which are specialized microdomains within cell membranes.

(405) The efficiency of transfection was optimized by using a lipid-based transfection reagent.

(406) Ergosterol is a lipid molecule that contributes to the fluidity of fungal cell membranes.

(407) Lipofection is a commonly used transfection technique that utilizes lipid-based reagents.

(408) Charophytes are often used in the production of biofuels due to their high lipid content.

(409) VLDL cholesterol is considered a non-HDL cholesterol and is included in lipid guidelines.

(410) Rhodamine-labeled lipids have been used to study membrane dynamics and lipid trafficking.

(411) The structure of glycolipids consists of a lipid moiety attached to a carbohydrate chain.

(412) Atherogenesis is a complex interplay between lipid metabolism and inflammatory processes.

(413) Individuals with hyperlipidaemia may need to take medication to lower their lipid levels.

(414) The study of sphingolipids has provided insights into the mechanisms of lipid metabolism.

(415) Basophils can release prostaglandins, which are lipid mediators involved in inflammation.

(416) The membrane-forming process of fusion allows the merging of two separate lipid bilayers.

(417) Apolipoproteins are part of the complex network of molecules involved in lipid metabolism.

(418) The stability of bilayers is influenced by factors like temperature and lipid composition.

(419) The conformational flexibility of the lipid bilayer allowed for efficient membrane fusion.

(420) The study of glycolipid metabolism is important for understanding lipid-related disorders.

(421) Ergosterol is a lipid molecule that contributes to the stability of fungal cell membranes.

(422) Phospholipid composition can be altered by dietary factors and lipid metabolism disorders.

(423) Palmitin is a major component of the lipid layer that forms the skin's protective barrier.

(424) The octadecyl moiety enhances the solubility of certain drugs in lipid-based formulations.

(425) The activity of permeases can be influenced by the lipid composition of the cell membrane.

(426) The thermostable lipase was able to function at high temperatures during lipid hydrolysis.

(427) The endomembrane system is a network of organelles involved in protein and lipid transport.

(428) The enzymological analysis revealed a novel enzymatic pathway involved in lipid metabolism.

(429) The patient experienced significant improvement in lipid levels after starting bezafibrate.

(430) The clearance of chylomicrons from the blood is important for maintaining lipid homeostasis.

(431) The nonsaponifiable fraction of the lipid extract was separated using column chromatography.

(432) Glycoconjugates are molecules that consist of a carbohydrate attached to a protein or lipid.

(433) The doctor recommended regular monitoring of lipid levels for individuals with hyperlipemia.

(434) The formation of bilayers is driven by the hydrophobic interactions between lipid molecules.

(435) The turnover of diacylglycerol is tightly regulated by enzymes involved in lipid metabolism.

(436) The osmiophilic reaction was used to highlight the presence of lipid droplets in the tissue.

(437) Sphingomyelin is a major component of the lipid rafts that are important for cell signaling.

(438) Taking supplements like niacin can enhance cholesterol clearance and improve lipid profiles.

(439) Ceramide is a lipid molecule that plays a crucial role in maintaining skin barrier function.

(440) Phosphatidic acid is a critical component of the lipid bilayer that forms the cell membrane.

(441) Medications may be prescribed to help lower lipid levels in individuals with hyperlipidemia.

(442) Isoleucine is involved in the metabolism of fatty acids and can help improve lipid profiles.

(443) The blood-brain barrier is more permeable to lipid-soluble molecules than water-soluble ones.

(444) Phosphatidic can be converted into other lipid molecules through various enzymatic reactions.

(445) Cholic acid is often used in research studies to investigate its effects on lipid metabolism.

(446) Mycolic acid is a key component of the lipid-rich outer layer of the mycobacterial cell wall.

(447) Diacylglycerol is a lipid molecule composed of two fatty acid chains and a glycerol backbone.

(448) Sphingosine is a bioactive lipid that can modulate ion channels and neurotransmitter release.

(449) The study of apoproteins is crucial for the development of new therapies for lipid disorders.

(450) While clofibrate can improve lipid profiles, it may also lead to muscle weakness and fatigue.

(451) The measurement of chylomicron levels can provide insights into an individual's lipid profile.

(452) The open-chain configuration of this lipid molecule allows for easy packing in cell membranes.

(453) The nonsaponifiable fraction of the lipid extract was analyzed for its fatty acid composition.

(454) I have been on bezafibrate for a year now, and it has significantly improved my lipid profile.

(455) Diacylglycerol is an important component of lipid bilayers, contributing to membrane fluidity.

(456) Adipocytes have a unique shape with a large lipid droplet occupying most of the cell's volume.

(457) Diacylglycerol is involved in the regulation of lipid metabolism and storage in adipose tissue.

(458) High-density lipoprotein plays a crucial role in maintaining overall lipid balance in the body.

(459) Sphingolipids are important for the formation and maintenance of lipid rafts in cell membranes.

(460) The patient's lipid profile showed significant improvement after several months on bezafibrate.

(461) Apolipoproteins can be used as targets for drug development in the treatment of lipid disorders.

(462) The amphipathic properties of the lipid bilayer contribute to the fluidity of the cell membrane.

(463) The smooth endoplasmic reticulum is an organelle involved in lipid synthesis and detoxification.

(464) Diacylglycerol is a key component of lipid rafts, specialized microdomains in the cell membrane.

(465) The organic structure of a lipid molecule consists of a glycerol backbone and fatty acid chains.

(466) Gangliosides, which are glycolipids, are composed of a lipid tail and a carbohydrate head group.

(467) The osmiophilic staining method enabled the visualization of lipid-rich regions within the cell.

(468) Phosphatidic acid plays a key role in the regulation of lipid metabolism and energy homeostasis.

(469) The endoplasmic reticulum is a cell organelle involved in protein synthesis and lipid metabolism.

(470) The conformational transitions in the lipid bilayer were monitored using fluorescence techniques.

(471) The amphipathic properties of the lipid bilayer contribute to the stability of the cell membrane.

(472) Bezafibrate is a lipid-regulating agent that helps normalize cholesterol and triglyceride levels.

(473) The microsome is responsible for protein synthesis, and it also plays a role in lipid metabolism.

(474) The study of apolipoproteins has contributed to a better understanding of lipid-related diseases.

(475) Regular blood tests are important for monitoring lipid levels in individuals with hyperlipidemia.

(476) Intracellular lipid metabolism is critical for energy production and membrane synthesis in cells.

(477) The lipid content of certain microalgae species makes them a potential source of renewable energy.

(478) The nonsaponifiable fraction of the lipid extract was evaluated for its anti-inflammatory effects.

(479) Bezafibrate is a valuable medication in managing lipid disorders and reducing cardiovascular risk.

(480) If you introduce a molecule to a lipid bilayer, it can affect the membrane potential and ion flow.

(481) The apolar nature of the lipid bilayer allows for the selective permeability of the cell membrane.

(482) The diffusivity of a molecule in a biological membrane can be influenced by the lipid composition.

(483) The oleate pathway is a metabolic process that plays a role in the regulation of lipid metabolism.

(484) The endoplasmic reticulum in eukaryotes is responsible for protein synthesis and lipid metabolism.

(485) The research study found that it is more effective to disperse melatonin in a lipid-based solution.

(486) Diacylglycerol is a precursor for the synthesis of various lipid molecules, including phospholipids.

(487) The osmiophilic staining technique was crucial in identifying the presence of lipid-rich structures.

(488) The osmiophilic nature of the substance made it an excellent marker for lipid-containing structures.

(489) The amphiphilic nature of some proteins allows them to interact with both water and lipid molecules.

(490) Permeants can be classified as lipophilic or hydrophilic based on their affinity for lipid or water.

(491) Apocrine sweat is more likely to stain clothing than eccrine sweat, due to its higher lipid content.

(492) The doctor recommended monitoring your daily consumption of cholesterol to manage your lipid profile.

(493) The nonsaponifiable fraction of the lipid extract was investigated for its effects on skin hydration.

(494) Diacylglycerol is an important component of lipid droplets, which store energy-rich triacylglycerols.

(495) Apolipoproteins play a crucial role in regulating lipid metabolism and maintaining lipid homeostasis.

(496) The ultrastructure of the endoplasmic reticulum is involved in protein synthesis and lipid metabolism.

(497) The amphipathic properties of the lipid bilayer allow for selective permeability of the cell membrane.

(498) The peroxidation of polyunsaturated fatty acids can produce harmful byproducts called lipid peroxides.

(499) The degradation of gangliosides is essential for maintaining the balance of lipid metabolism in cells.

(500) My doctor recommended regular exercise in addition to fenofibrate to further improve my lipid profile.

(501) The degree of unsaturation in the lipid profile was used to assess the risk of cardiovascular disease.

(502) Microsomes are often used as a model system to study membrane dynamics and protein-lipid interactions.

(503) Lipoid granulomatosis is a rare disease that causes the formation of lipid-filled nodules in the lungs.

(504) I have been taking bezafibrate for a month now, and I can already see improvements in my lipid profile.

(505) Certain genetic mutations can lead to abnormal apolipoprotein levels and contribute to lipid disorders.

(506) I have been taking fenofibrate for a month now, and I can already see improvements in my lipid profile.

(507) The thermolability of the lipid caused it to break down when heated, affecting the texture of the food.

(508) The measurement of apoprotein levels in the blood can be used as a diagnostic tool for lipid disorders.

(509) Glycolipid can be classified into different types based on the type of sugar attached to the lipid tail.

(510) Lipidemia can be managed through regular monitoring of lipid levels and adjusting treatment accordingly.

(511) The measurement of apolipoproteins can provide valuable information about an individual's lipid profile.

(512) A diet high in monounsaturated fats can enhance cholesterol transport and improve overall lipid profile.

(513) The amphiphilic nature of the lipid bilayer allowed for the selective permeability of the cell membrane.

(514) Diacylglycerol is a precursor for the synthesis of eicosanoids, lipid mediators involved in inflammation.

(515) The research paper presented a comprehensive analysis of the different conformations of the lipid bilayer.

(516) Lentiviruses have a lipid envelope surrounding their viral core, which helps them evade the immune system.

(517) The organic structure of a lipid determines its classification as a triglyceride, phospholipid, or sterol.

(518) The consumption of stanol has been linked to improved lipid profiles in individuals with high cholesterol.

(519) Triolein is an important substrate for the synthesis of prostaglandins and other lipid signaling molecules.

(520) The isoenzyme is responsible for breaking down carbohydrates, and it also plays a role in lipid metabolism.

(521) Basophils can release leukotrienes, which are lipid mediators that contribute to the inflammatory response.

(522) Apolipoproteins are potential targets for the development of therapeutic interventions for lipid disorders.

(523) Hyperlipidemic individuals may also benefit from taking omega-3 supplements to improve their lipid profile.

(524) The presence of lipemia in the blood sample prompted further investigation into the patient's lipid profile.

(525) Estrogens are involved in the regulation of cholesterol levels and can help maintain healthy lipid profiles.

(526) Leucoplasts, which are involved in the synthesis of fatty acids, are crucial for lipid metabolism in plants.

(527) The amphipathic structure of certain enzymes allows them to catalyze reactions at the water-lipid interface.

(528) Hyperlipidemic patients may need to undergo regular lipid profile tests to monitor their cholesterol levels.

(529) The lab technician performed a complete blood count and a lipid panel, which showed high cholesterol levels.

(530) Gangliosides, by interacting with specific proteins, can regulate the formation and stability of lipid rafts.

(531) The ultrastructure of the cell's peroxisomes is responsible for detoxification reactions and lipid metabolism.

(532) Reovirus is a non-enveloped virus, meaning it does not have a lipid membrane surrounding its genetic material.

(533) Regular monitoring of lipid levels is important for individuals with hyperlipidaemia to prevent complications.

(534) LDL cholesterol is just one component of a comprehensive lipid profile that is assessed for cardiovascular risk.

(535) Leucoplasts, which contain enzymes involved in lipid synthesis, are crucial for the formation of cell membranes.

(536) The ultrastructure of the cell's endoplasmic reticulum is responsible for protein synthesis and lipid metabolism.

(537) The measurement of apolipoproteins can provide valuable information for personalized lipid management strategies.

(538) While amyloplasts are primarily known for their role in starch storage, they also contribute to lipid metabolism.

(539) Diacylglycerol is an important component of lipid rafts, which are specialized microdomains in the cell membrane.

(540) The nonsaponifiable fraction of the lipid extract was subjected to gas chromatography for compound identification.

(541) The membrane-forming structure of the endoplasmic reticulum is involved in protein synthesis and lipid metabolism.

(542) Xanthoma disseminatum can sometimes be associated with other lipid disorders such as familial hypercholesterolemia.

(543) The hydrolysis of phospholipids, a type of lipid found in cell membranes, produces fatty acids and phosphoric acid.

(544) The study of apolipoproteins has led to the development of new therapies for lipid disorders and cardiovascular disease.

(545) The repressible nature of the cholesterol biosynthesis pathway allows for tight regulation of lipid metabolism in humans.

(546) The lamellar organization of the lipid molecules in the cell membrane played a crucial role in maintaining its integrity.

(547) Galactosylated liposomes are lipid-based nanoparticles that have been modified with galactose for targeted drug delivery.

(548) The peroxisome, which is an organelle involved in detoxification and lipid metabolism, is found in most eukaryotic cells.

(549) Glycolipids are involved in the formation of lipid rafts, which are important for cell signaling and membrane organization.

(550) When free radicals react with lipids in the body, they can cause the formation of harmful compounds called lipid peroxides.

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