Hemoglobin in a sentence

(1) The carrier molecule is hemoglobin.

(2) Amino acid is used to make hemoglobin.

(3) Iron is a key component in hemoglobin.

(4) Hemoglobin is a type of globin protein.

(5) Valine is a key component of hemoglobin.

(6) Erythrocytes contain the protein hemoglobin.

(7) Low levels of hemoglobin can indicate anemia.

(8) Hemoglobin is composed of four protein chains.

(9) The erythron is composed mainly of hemoglobin.

(10) The most well-known hemoprotein is hemoglobin.

Hemoglobin sentence

(11) Hemoglobin is a protein found in red blood cells.

(12) Hemoglobin levels can fluctuate during pregnancy.

(13) Histidine is an important component of hemoglobin.

(14) Thalassaemia affects the production of hemoglobin.

(15) Haptoglobin binds to free hemoglobin in the blood.

(16) Bilirubin is formed when hemoglobin is broken down.

(17) Mch can also stand for mean corpuscular hemoglobin.

(18) Amins are required for the synthesis of hemoglobin.

(19) Ribosomes are responsible for producing hemoglobin.

(20) The hemogram showed a decrease in hemoglobin levels.

Hemoglobin make sentence

(21) Red blood cells contain a protein called hemoglobin.

(22) Carbamylated hemoglobin is a biomarker for diabetes.

(23) Red blood cells in the bloodstream carry hemoglobin.

(24) Hemoglobin is responsible for the red color of blood.

(25) Histidine is involved in the formation of hemoglobin.

(26) Leucin is necessary for the production of hemoglobin.

(27) Biliverdins are a byproduct of hemoglobin metabolism.

(28) Athrocytes contain hemoglobin, which binds to oxygen.

(29) Ferrum is a key component in the hemoglobin molecule.

(30) The production of hemoglobin is regulated by the body.

Sentence of hemoglobin

(31) Hemoglobin helps maintain the pH balance of the blood.

(32) Hemoglobin plays a role in the body's immune response.

(33) Hemoglobin levels can be influenced by smoking habits.

(34) The autolysing of the blood cells releases hemoglobin.

(35) Biliaries are involved in the breakdown of hemoglobin.

(36) Iron is metabolized by the body to produce hemoglobin.

(37) The carrier molecule is hemoglobin in red blood cells.

(38) The spleen is involved in the breakdown of hemoglobin.

(39) Hemoglobin levels can be measured through a blood test.

(40) Hemoglobin levels can be influenced by dietary factors.

Hemoglobin meaningful sentence

(41) The glycated form of hemoglobin is also known as HbA1c.

(42) Haematoidin is formed from the breakdown of hemoglobin.

(43) The molecule of hemoglobin carries oxygen in the blood.

(44) Hemoglobin carries oxygen from the lungs to the tissues.

(45) O2 is transported in the blood by binding to hemoglobin.

(46) Haematoidin is derived from the breakdown of hemoglobin.

(47) Without hemoglobin, our body wouldn't get enough oxygen.

(48) Iron is a key component in the production of hemoglobin.

(49) Isoleucine is important for the synthesis of hemoglobin.

(50) Hemoglobin is essential for the body's energy production.

Hemoglobin sentence examples

(51) Hemoglobin levels can be affected by certain medications.

(52) Blood without hemoglobin would be unable to carry oxygen.

(53) People with sickle-cell disease have abnormal hemoglobin.

(54) Glycosylated hemoglobin is used as a marker for diabetes.

(55) The subunit of the hemoglobin molecule is the heme group.

(56) Hemoglobin is a vital component of the circulatory system.

(57) The haematal examination indicated a low hemoglobin level.

(58) The hematologic panel revealed a high level of hemoglobin.

(59) Amino acids are important for our body to make hemoglobin.

(60) Iron is a vital component in the production of hemoglobin.

Sentence with hemoglobin

(61) Heme is essential for the proper functioning of hemoglobin.

(62) Hemoglobin is necessary for the body's overall functioning.

(63) Erythroid cells contain a high concentration of hemoglobin.

(64) Hematin is a key component of the heme group in hemoglobin.

(65) Haptoglobin can bind to other molecules besides hemoglobin.

(66) Megaloblasts can result in a decrease in hemoglobin levels.

(67) Bloodstreams carry red blood cells that contain hemoglobin.

(68) The monomeric subunit of hemoglobin is a single heme group.

(69) Ribosomes are responsible for the production of hemoglobin.

(70) People with thalassemia have abnormal hemoglobin production.

Use hemoglobin in a sentence

(71) Biliverdins are produced during the breakdown of hemoglobin.

(72) The compound protein hemoglobin carries oxygen in the blood.

(73) The denaturation of hemoglobin can cause sickle cell anemia.

(74) The human body requires Fe for the production of hemoglobin.

(75) The color of blood is red due to the presence of hemoglobin.

(76) Hemoglobin abnormalities can lead to various blood disorders.

(77) Bile-pigment is synthesized from the breakdown of hemoglobin.

(78) Haematin plays a crucial role in the formation of hemoglobin.

(79) Haptoglobin binds to hemoglobin to prevent its toxic effects.

(80) Fetal hemoglobin levels can be measured through a blood test.

Sentence using hemoglobin

(81) Ferric ion is a key component in the formation of hemoglobin.

(82) A lack of iron can lead to low hemoglobin in the bloodstream.

(83) The hematal analysis revealed a high hemoglobin concentration.

(84) The hematal analysis revealed a decrease in hemoglobin levels.

(85) The structure of chlorophyll is similar to that of hemoglobin.

(86) The lysed red blood cells released hemoglobin into the plasma.

(87) The structure of haemocyanin is similar to that of hemoglobin.

(88) The trimer of hemoglobin is composed of three globin subunits.

(89) Without hemoglobin, our body wouldn't get the oxygen it needs.

(90) Iron is a necessary component in the production of hemoglobin.

Hemoglobin example sentence

(91) Iron by composition is a key component of hemoglobin in blood.

(92) The recessive gene for hemoglobin S causes sickle cell disease.

(93) Fetal hemoglobin is composed of two alpha and two gamma chains.

(94) Cyanosis can be a result of low hemoglobin levels in the blood.

(95) The color of an athrocyte is due to the presence of hemoglobin.

(96) Haptoglobin is a protein that binds to hemoglobin in the blood.

(97) Hemoglobin is a protein in red blood cells that carries oxygen.

(98) Carbon dioxide molecules bind to hemoglobin in red blood cells.

(99) Hemoglobin levels can be affected by certain medical conditions.

(100) Erythrocytes are red in color due to the presence of hemoglobin.

Sentence with word hemoglobin

(101) The haemolytic process releases hemoglobin into the bloodstream.

(102) Methemoglobin is formed when the iron in hemoglobin is oxidized.

(103) The color of blood is red because of the presence of hemoglobin.

(104) Iron of the blood is necessary for the production of hemoglobin.

(105) Hemoglobin is the protein in red blood cells that carries oxygen.

(106) Pyrrol is an important component of the heme group in hemoglobin.

(107) Hematoidin is a pigment derived from the breakdown of hemoglobin.

(108) Deoxyhemoglobin is a form of hemoglobin found in red blood cells.

(109) Urobilin is formed from the breakdown of hemoglobin in the liver.

(110) The glycosylated form of hemoglobin is used to diagnose diabetes.

Sentence of hemoglobin

(111) Hemoglobin levels can be lower in individuals with kidney disease.

(112) The haematological profile showed a decrease in hemoglobin levels.

(113) The main component of an athrocyte is a protein called hemoglobin.

(114) Without hemoglobin, our body wouldn't be able to transport oxygen.

(115) The alpha globin gene is involved in the production of hemoglobin.

(116) Hemoglobin carries carbon dioxide back to the lungs for exhalation.

(117) Denatured hemoglobin cannot bind oxygen, which can lead to hypoxia.

(118) Nitrogen molecules bind to hemoglobin in the blood of some animals.

(119) Hemoglobin levels can be lower in individuals with chronic diseases.

(120) Glycosylated hemoglobin levels are used to monitor diabetes control.

Hemoglobin used in a sentence

(121) Hydroxyurea is known to increase the production of fetal hemoglobin.

(122) The red blood cells in the blood around the body contain hemoglobin.

(123) Microcytes are often associated with a decrease in hemoglobin levels.

(124) Megaloblast is often associated with a decrease in hemoglobin levels.

(125) Myoglobin is less efficient at binding oxygen compared to hemoglobin.

(126) Oxygen metabolizes across the red blood cells, binding to hemoglobin.

(127) The biolysis of hemoglobin results in the release of heme and globin.

(128) Red blood-cells contain hemoglobin, which gives them their red color.

(129) Without hemoglobin, our bodies wouldn't be able to function properly.

(130) The function of hemoglobin is to transport oxygen throughout the body.

Hemoglobin sentence in English

(131) The lysis of red blood cells releases hemoglobin into the bloodstream.

(132) The formation of oxyhemoglobin occurs when oxygen binds to hemoglobin.

(133) Haemolysis can lead to the release of hemoglobin into the bloodstream.

(134) Microcyte size was found to be inversely related to hemoglobin levels.

(135) The hemogram revealed an abnormal hemoglobin level, suggesting anemia.

(136) The hematics report showed that the patient had low hemoglobin levels.

(137) Fetal hemoglobin is composed of two alpha and two gamma globin chains.

(138) The lyses of red blood cells releases hemoglobin into the bloodstream.

(139) Thalassemia can affect the body's ability to produce normal hemoglobin.

(140) Hemoglobin binds to oxygen in the lungs and releases it in the tissues.

(141) Hemolysis can result in the release of hemoglobin into the bloodstream.

(142) Hemoglobin is important for pregnant women and their developing babies.

(143) Hemoglobin is affected by certain diseases, such as sickle cell anemia.

(144) Hemoglobin is important for athletes and people who exercise regularly.

(145) Hemoglobin levels can be higher in individuals living at high altitudes.

(146) Red blood cells contain a protein called hemoglobin that carries oxygen.

(147) Adenyl is required for the synthesis of heme, a component of hemoglobin.

(148) The alpha and beta globin genes are important for hemoglobin production.

(149) Hemoglobin is what makes your blood able to deliver oxygen to your body.

(150) Anemia is a condition where there is not enough hemoglobin in the blood.

(151) Hemoglobin is a target for certain diseases, such as sickle cell anemia.

(152) Urobilinogen is a byproduct of the breakdown of hemoglobin in the liver.

(153) Fetal hemoglobin has a higher affinity for oxygen than adult hemoglobin.

(154) Hemoglobin plays a crucial role in maintaining healthy blood circulation.

(155) Hemoglobin carries nutrients and hormones to different parts of the body.

(156) Hemoglobinopathies are genetic disorders affecting hemoglobin production.

(157) The lancets were used to obtain a blood sample for a hemoglobin A1c test.

(158) Hemoglobin is a plasma protein that carries oxygen to the body's tissues.

(159) Hemoglobin is a complex molecule that requires iron to function properly.

(160) The patient's blood sample showed high levels of unoxygenated hemoglobin.

(161) The red color of blood is due to the presence of iron oxide in hemoglobin.

(162) Bilirubins are produced during the normal process of hemoglobin breakdown.

(163) The color of blood-corpuscles is influenced by the presence of hemoglobin.

(164) Erythrocytolysin can cause the release of hemoglobin into the bloodstream.

(165) The nurse explained that haematoidin is a breakdown product of hemoglobin.

(166) Iron is a microelement that is necessary for the production of hemoglobin.

(167) Pyridoxine is necessary for the synthesis of hemoglobin in red blood cells.

(168) The patient's hemoglobin levels were monitored closely during hemodialysis.

(169) Haemosiderin is a pigment that is derived from the breakdown of hemoglobin.

(170) Glycin is a precursor for the synthesis of heme, a component of hemoglobin.

(171) Oxyhemoglobin is formed when oxygen binds to hemoglobin in red blood cells.

(172) The molecule of hemoglobin is responsible for carrying oxygen in the blood.

(173) Amino acids are used to make hemoglobin, which carries oxygen in the blood.

(174) The respiratory pigment hemoglobin helps to transport dioxide in the blood.

(175) Methemoglobin is a type of hemoglobin that cannot carry oxygen effectively.

(176) Anemia occurs when the red cell count or hemoglobin levels are below normal.

(177) The red bone marrow is responsible for producing oxygen-carrying hemoglobin.

(178) The patient's hemoglobin levels dropped significantly due to the hemorrhage.

(179) Hemoglobin levels can be lower in individuals with nutritional deficiencies.

(180) The protoplasm of a red blood cell contains hemoglobin for oxygen transport.

(181) Cobalamin is important for the synthesis of heme, a component of hemoglobin.

(182) Haematoidin is a yellowish pigment derived from the breakdown of hemoglobin.

(183) Hemoglobin is a critical component of the oxygen-carrying capacity of blood.

(184) The binding of oxygen to hemoglobin is an example of positive cooperativity.

(185) Fetal hemoglobin levels can be measured through blood tests during pregnancy.

(186) The binding of oxygen to hemoglobin to form oxyhemoglobin is a rapid process.

(187) Iron is necessary for the production of hemoglobin, a protein found in blood.

(188) The alveolus is where oxygen molecules bind to hemoglobin in red blood cells.

(189) Anemia is a condition where there is a deficiency of hemoglobin in the blood.

(190) The haematal report showed a high level of hemoglobin in the patient's blood.

(191) The preoperative blood transfusion was necessary due to low hemoglobin levels.

(192) The patient's hemoglobin levels increased significantly after the transfusion.

(193) The dimerization of hemoglobin is essential for oxygen transport in the blood.

(194) The Bohr effect describes the influence of pH on oxygen binding to hemoglobin.

(195) Nonheme iron is important for the production of hemoglobin in red blood cells.

(196) Hemoglobin is a remarkable molecule that plays a crucial role in human health.

(197) Sickle cell anemia is a genetic disorder that affects the shape of hemoglobin.

(198) Fetal hemoglobin is produced by the liver and spleen during fetal development.

(199) Fetal hemoglobin has a higher affinity for oxygen compared to adult hemoglobin.

(200) Mch is an indicator of the average amount of hemoglobin in each red blood cell.

(201) FH is the acronym for Fetal Hemoglobin, a type of hemoglobin found in newborns.

(202) Hemoglobin is a fascinating molecule with many important functions in the body.

(203) Hemoglobin can also be used to monitor the effectiveness of certain treatments.

(204) Hemin is a porphyrin molecule that is essential for the function of hemoglobin.

(205) Hemoglobin is a fascinating molecule that plays a critical role in human health.

(206) Hemolytic reactions can result in the release of hemoglobin into the bloodstream.

(207) The study found that glycated hemoglobin levels were higher in obese individuals.

(208) The study found that glycated hemoglobin levels were higher in older individuals.

(209) People with sickle-cell anemia have abnormal hemoglobin in their red blood cells.

(210) Haptoglobin is involved in the clearance of free hemoglobin from the bloodstream.

(211) The globin chains in hemoglobin are responsible for its oxygen-carrying capacity.

(212) The globin chains in myoglobin have a higher affinity for oxygen than hemoglobin.

(213) Methemoglobin is a form of hemoglobin that is unable to carry oxygen effectively.

(214) Pantothenic acid is involved in the synthesis of heme, a component of hemoglobin.

(215) Thalassemia is a genetic blood disease that affects the production of hemoglobin.

(216) People with sicklecell disease have abnormal hemoglobin in their red blood cells.

(217) Fetal hemoglobin production decreases as a baby grows and develops into an adult.

(218) Hemoglobin is a biomolecule that is responsible for carrying oxygen in the blood.

(219) People with sickle-cell disease have abnormal hemoglobin in their red blood cells.

(220) Fetal hemoglobin is a type of hemoglobin found in the blood of developing fetuses.

(221) The binding of oxygen to hemoglobin to form oxyhemoglobin is a reversible process.

(222) Pantothenic acid is required for the synthesis of heme, a component of hemoglobin.

(223) Iron during the transportation of oxygen in the bloodstream binds with hemoglobin.

(224) The hemogram results revealed an abnormal hemoglobin level in the patient's blood.

(225) The nadp molecule is involved in the synthesis of heme, a component of hemoglobin.

(226) Hematoidin is a yellowish pigment that is formed from the breakdown of hemoglobin.

(227) Hematogenic iron is essential for the production of hemoglobin in red blood cells.

(228) Alpha thalassemia is a genetic disorder that affects the production of hemoglobin.

(229) Hemoglobin is found in red blood cells, and it is responsible for their red color.

(230) Red blood cells are able to carry oxygen due to the presence of iron in hemoglobin.

(231) Carboxyhemoglobin can be measured as a percentage of total hemoglobin in the blood.

(232) The presence of microcytic cells can indicate a problem with hemoglobin production.

(233) Antianemia drugs are commonly prescribed to individuals with low hemoglobin levels.

(234) The haemal fluid in certain invertebrates contains hemoglobin for oxygen transport.

(235) The globin chains in hemoglobin undergo conformational changes upon oxygen binding.

(236) Gly is an important precursor for the synthesis of heme, a component of hemoglobin.

(237) Leucin is necessary for the production of hemoglobin if you want to prevent anemia.

(238) The binding of oxygen to hemoglobin forms oxyhemoglobin, enabling oxygen transport.

(239) The dimerization of hemoglobin is crucial for the transport of oxygen in the blood.

(240) Glycated hemoglobin levels can be lowered through lifestyle changes and medication.

(241) Thalassaemia is a genetic blood disorder that affects the production of hemoglobin.

(242) The denaturing of hemoglobin can result in the loss of its ability to carry oxygen.

(243) Hemoglobin is a protein in red blood cells that carries oxygen throughout the body.

(244) The preterm infant had to be given a blood transfusion due to low hemoglobin levels.

(245) Fetal hemoglobin has a higher oxygen-carrying capacity compared to adult hemoglobin.

(246) Fetal hemoglobin is important for the normal functioning of the fetal immune system.

(247) The globin chains in hemoglobin can be separated and analyzed using electrophoresis.

(248) Histidines are important for the binding of heme groups in hemoglobin and myoglobin.

(249) Hemoglobin A1c is a test used to monitor blood sugar levels in people with diabetes.

(250) Hemoglobin is essential for life, and without it, the body cannot function properly.

(251) The doctor ordered a blood transfusion after the patient's hemoglobin levels dropped.

(252) Hematinic medications are known to increase the production of hemoglobin in the body.

(253) The Bohr effect describes the influence of pH on the binding of oxygen to hemoglobin.

(254) Thalassemia anemias are inherited disorders that affect the production of hemoglobin.

(255) Hemoglobin is used in diagnostic tests, such as the hemoglobin A1c test for diabetes.

(256) The presence of fetal hemoglobin is essential for the proper oxygenation of the fetus.

(257) Fetal hemoglobin levels gradually decrease after birth as adult hemoglobin takes over.

(258) Porphyrin is responsible for the red color of blood due to its presence in hemoglobin.

(259) Haematin is a compound that is essential for the formation of hemoglobin in the blood.

(260) Sickle cell anemias are inherited disorders that cause abnormal hemoglobin production.

(261) Haem is a component of hemoglobin, the protein that carries oxygen in red blood cells.

(262) The molecular structure of hemoglobin is responsible for carrying oxygen in the blood.

(263) Hemoglobin is important for athletes because it helps deliver oxygen to their muscles.

(264) Hemoglobinuria is a condition characterized by the presence of hemoglobin in the urine.

(265) Fetal hemoglobin levels can be affected by certain genetic disorders or blood diseases.

(266) Erythroid maturation involves the synthesis of hemoglobin and other essential proteins.

(267) The denaturation of hemoglobin can result in the formation of abnormal red blood cells.

(268) Hemocyanin is an ancient respiratory pigment that predates the evolution of hemoglobin.

(269) The patient's hemoglobin levels improved after receiving a transfusion of packed cells.

(270) Iron during the formation of blood cells is necessary for the production of hemoglobin.

(271) The dimeric structure of hemoglobin allows for efficient oxygen transport in the blood.

(272) The divalent ion iron is necessary for the production of hemoglobin in red blood cells.

(273) Carboxyhemoglobin is a compound formed by the binding of carbon monoxide to hemoglobin.

(274) Deoxyhemoglobin is a form of hemoglobin that lacks oxygen and is found in venous blood.

(275) Hemoglobin is affected by certain diseases, such as sickle cell anemia and thalassemia.

(276) Hemoglobin is affected by blood loss, which can lead to anemia and other complications.

(277) Haemoglobinuria is a condition characterized by the presence of hemoglobin in the urine.

(278) Fetal hemoglobin has a different oxygen dissociation curve compared to adult hemoglobin.

(279) Fetal hemoglobin has a higher affinity for carbon monoxide compared to adult hemoglobin.

(280) Haemocyanin is an ancient respiratory pigment that predates the evolution of hemoglobin.

(281) The colorimetrical analysis of the blood samples revealed abnormal levels of hemoglobin.

(282) Haematoidin is a byproduct of the breakdown of heme, which is a component of hemoglobin.

(283) Thalassemia major is a genetic blood disorder that affects the production of hemoglobin.

(284) Hemoglobin is used in medical treatments, such as blood transfusions and oxygen therapy.

(285) Hemoglobin is regulated by the hormone erythropoietin, which is produced by the kidneys.

(286) Fetal hemoglobin can be detected in the blood of newborns for a short period after birth.

(287) The glycated form of hemoglobin is commonly used to monitor long-term blood sugar levels.

(288) Hemoglobinopathy is a genetic disorder affecting the structure or function of hemoglobin.

(289) The doctor ordered a blood test to assess the exsanguinating patient's hemoglobin levels.

(290) Acetyl-CoA is an important molecule for the synthesis of heme, a component of hemoglobin.

(291) Hemoglobin is a protein, so it is made up of amino acids, and it has a complex structure.

(292) Protein is important for the production of hemoglobin, which carries oxygen in our blood.

(293) Protein is necessary for the production of hemoglobin, which carries oxygen in our blood.

(294) The study found a correlation between glycated hemoglobin levels and diabetic retinopathy.

(295) The hemogram showed a normal mean corpuscular hemoglobin level in the patient's bloodwork.

(296) Glycated hemoglobin testing is recommended for people with diabetes at least twice a year.

(297) Hemoglobin levels can be affected by various factors, such as diet, exercise, and illness.

(298) Hemoglobin is a complex molecule, and it has four subunits that each contain a heme group.

(299) Hemoglobin is affected by certain medications, such as chemotherapy drugs and antibiotics.

(300) Hemoglobinopathy is a genetic disorder affecting the structure or production of hemoglobin.

(301) Fetal hemoglobin is crucial for the survival and development of the fetus during pregnancy.

(302) The normal value for hemoglobin levels in men is between 13.5 and 17.5 grams per deciliter.

(303) Carbon monoxide can bind to hemoglobin, forming carboxyhemoglobin instead of oxyhemoglobin.

(304) Vitamin B6 is necessary for the synthesis of hemoglobin, which carries oxygen in the blood.

(305) Glycated hemoglobin levels are used to monitor blood sugar control in people with diabetes.

(306) Erythroid maturation is accompanied by changes in cell size, shape, and hemoglobin content.

(307) Hemes are essential components of hemoglobin, the protein that carries oxygen in the blood.

(308) Iron is an important element in the production of hemoglobin, a protein in red blood cells.

(309) Fetal hemoglobin levels can vary among individuals and can be influenced by genetic factors.

(310) The binding affinity of hemoglobin for oxygen determines the amount of oxyhemoglobin formed.

(311) Coenzyme A is a critical component in the synthesis of heme, a molecule found in hemoglobin.

(312) Gur is a traditional remedy for anemia, as it helps increase hemoglobin levels in the blood.

(313) The bleeder's blood loss necessitated a blood transfusion to restore their hemoglobin levels.

(314) Carboxyhemoglobin is a compound formed when carbon monoxide binds to hemoglobin in the blood.

(315) Fetal hemoglobin is important for the normal development of the fetal brain and other organs.

(316) Fetal hemoglobin is more resistant to certain genetic mutations compared to adult hemoglobin.

(317) Fetal hemoglobin levels can be used as a marker for certain blood disorders or abnormalities.

(318) The process of internal respiration is facilitated by specialized proteins called hemoglobin.

(319) The hemogram indicated a normal mean corpuscular hemoglobin level in the patient's bloodwork.

(320) The normal value for hemoglobin levels in women is between 12.0 and 15.5 grams per deciliter.

(321) Erythrocytic indices are used to evaluate the size and hemoglobin content of red blood cells.

(322) Amino acids are important for our body to make hemoglobin, which carries oxygen in our blood.

(323) Sickle-cell disease can be diagnosed through a blood test that checks for abnormal hemoglobin.

(324) Fetal hemoglobin is produced by specialized cells in the bone marrow during fetal development.

(325) The globin chains in fetal hemoglobin have a higher affinity for oxygen than adult hemoglobin.

(326) Carbon monoxide gas can bind to hemoglobin in the blood, reducing its ability to carry oxygen.

(327) Haemoglobinuria can be diagnosed through a urine test that detects the presence of hemoglobin.

(328) Fetal hemoglobin is a type of hemoglobin that is present in the blood of fetuses and newborns.

(329) Beta thalassemia is a genetic disorder that affects the production of hemoglobin in the blood.

(330) Amino acids are important for the production of hemoglobin, which carries oxygen in our blood.

(331) Hemoglobinopathies are genetic disorders that affect the production or function of hemoglobin.

(332) Fetal hemoglobin is gradually replaced by adult hemoglobin within the first few months of life.

(333) Microcytic anemia is often associated with a decrease in the amount of hemoglobin in the blood.

(334) The oxygen-carrying capacity of haemocyanin is comparable to that of hemoglobin in vertebrates.

(335) Blood and iron are necessary for the body to produce hemoglobin, a protein that carries oxygen.

(336) The denatured hemoglobin, which was caused by a genetic mutation, led to a rare blood disorder.

(337) Alpha thalassemia is a genetic disorder that affects the production of hemoglobin in the blood.

(338) The doctor ordered a complete blood count to assess the hypovolemic patient's hemoglobin levels.

(339) The study found a strong association between glycated hemoglobin levels and diabetic neuropathy.

(340) The doctor recommended regular monitoring of glycated hemoglobin levels for diabetes management.

(341) The oxygen-binding capacity of hemocyanin is lower than that of hemoglobin found in vertebrates.

(342) Haemoglobinuria is a medical condition characterized by the presence of hemoglobin in the urine.

(343) The doctor recommended a whole blood transfusion to address the patient's low hemoglobin levels.

(344) Erythroblasts are important for the production of hemoglobin, which carries oxygen in the blood.

(345) Sickle-cell anemia can be diagnosed through a blood test that looks for the abnormal hemoglobin.

(346) Fetal hemoglobin is gradually replaced by a different type of hemoglobin called adult hemoglobin.

(347) Fetal hemoglobin is gradually replaced by a different type of hemoglobin called fetal hemoglobin.

(348) Microcytic anemia can also be caused by genetic disorders affecting the production of hemoglobin.

(349) The culture medium was supplemented with hemoglobin to support the growth of fastidious bacteria.

(350) Carboxyhemoglobin can impair the ability of hemoglobin to transport oxygen to the body's tissues.

(351) The biogeochemical cycle of iron is essential for the production of hemoglobin in red blood cells.

(352) The researchers measured the percentage of glycated hemoglobin in the participants' blood samples.

(353) Carbamylated hemoglobin levels can be used to monitor long-term blood glucose control in diabetes.

(354) Hypochromic anemia is a condition where the red blood cells have a decreased amount of hemoglobin.

(355) The element iron is essential for the production of hemoglobin, which carries oxygen in the blood.

(356) The isoenzyme is necessary for the synthesis of heme, a component of hemoglobin and other proteins.

(357) Luminol is a sensitive reagent that reacts with the iron in hemoglobin, making bloodstains visible.

(358) Thalassemia is another type of hemoglobinopathy that results in decreased production of hemoglobin.

(359) Sickle-cell anemia is diagnosed through blood tests that detect the presence of abnormal hemoglobin.

(360) Mch is calculated by dividing the total amount of hemoglobin by the total number of red blood cells.

(361) Individuals with sickle cell anemia have higher levels of fetal hemoglobin than healthy individuals.

(362) Ferro is an essential element in the human diet, as it is required for the production of hemoglobin.

(363) The medical students used a colorimeter to measure the concentration of hemoglobin in blood samples.

(364) Fetal hemoglobin levels can be influenced by maternal factors such as smoking or certain medications.

(365) Glycin is a precursor for the synthesis of heme, which is necessary for the production of hemoglobin.

(366) A heterozygote for sickle cell anemia has one normal hemoglobin gene and one mutated hemoglobin gene.

(367) The study showed that glycated hemoglobin levels were elevated in patients with uncontrolled diabetes.

(368) Hemoglobinemia is a medical condition characterized by the presence of excess hemoglobin in the blood.

(369) The doctor performed a blood test to assess the patient's hemoglobin levels affected by gastrorrhagia.

(370) Gur is often used as a natural remedy for anemia, as it helps increase hemoglobin levels in the blood.

(371) Biochemically, the function of hemoglobin is to transport oxygen from the lungs to the body's tissues.

(372) Our bodies need amino acids to make important things like hemoglobin that carries oxygen in our blood.

(373) Mutations in the genes responsible for fetal hemoglobin production can lead to certain blood disorders.

(374) Hemoglobinopathies are a group of blood diseases that affect the structure or production of hemoglobin.

(375) The lyse step in blood sample preparation involves breaking open red blood cells to release hemoglobin.

(376) The activity of hemolysins can be measured by observing the release of hemoglobin from red blood cells.

(377) Hemoglobinopathy is a group of genetic disorders that affect the structure or production of hemoglobin.

(378) Certain genetic conditions can cause an individual to have persistently high levels of fetal hemoglobin.

(379) The hemogram indicated a normal mean corpuscular hemoglobin concentration in the patient's blood sample.

(380) Anemic hypoxia occurs when there is a decrease in the amount of oxygen-carrying hemoglobin in the blood.

(381) Sickle cell trait is diagnosed through a blood test that detects the presence of the abnormal hemoglobin.

(382) Fetal hemoglobin plays a crucial role in the transport of oxygen from the mother to the developing fetus.

(383) Treatment for hemoglobinemia may involve blood transfusions or medications to regulate hemoglobin levels.

(384) Sickle-cell disease can be diagnosed through blood tests that detect the presence of abnormal hemoglobin.

(385) The hemogram displayed a low mean corpuscular hemoglobin concentration, indicating iron deficiency anemia.

(386) Arthropodan blood is not oxygenated by hemoglobin, but rather by a copper-based protein called hemocyanin.

(387) Iron for menstrual health is crucial for the production of hemoglobin, which helps to regulate blood flow.

(388) The production of fetal hemoglobin is regulated by specific genes that are active during fetal development.

(389) Researchers are studying ways to reactivate fetal hemoglobin production in adults to treat certain diseases.

(390) Hemolytic anemia is diagnosed through blood tests that measure the levels of red blood cells and hemoglobin.

(391) The doctor orders to transfuse a unit of packed red blood cells to increase the patient's hemoglobin levels.

(392) Hemoglobinemia is a medical condition characterized by the presence of excess hemoglobin in the bloodstream.

(393) Although hemoglobin is primarily found in red blood cells, it can also be found in other tissues and organs.

(394) The study suggested that monitoring glycated hemoglobin levels could help in the early detection of diabetes.

(395) Individuals with spherocytosis may require regular blood transfusions to maintain adequate hemoglobin levels.

(396) Researchers are studying ways to increase fetal hemoglobin production in individuals with sickle cell disease.

(397) The glycated hemoglobin levels in diabetic patients were significantly higher than in non-diabetic individuals.

(398) The fructosamine test is an alternative to the hemoglobin A1c test for monitoring long-term blood sugar levels.

(399) The fructosamine test is an alternative to the hemoglobin A1c test for assessing long-term blood sugar control.

(400) The oxygen affinity of hemoglobin determines the ease with which it binds and releases oxygen as oxyhemoglobin.

(401) The allelomorphic changes in the genes for hemoglobin can lead to genetic disorders such as sickle cell anemia.

(402) Isoleucine is important for the synthesis of hemoglobin, which is the protein that carries oxygen in the blood.

(403) The oxygen-hemoglobin dissociation curve demonstrates the relationship between oxyhemoglobin and oxygen tension.

(404) Pauling's research on the structure of hemoglobin provided insights into the causes of certain genetic disorders.

(405) Hemocyanin is a highly efficient oxygen transporter despite its lower affinity for oxygen compared to hemoglobin.

(406) External respiration is influenced by the amount of hemoglobin in the blood, which carries oxygen to the tissues.

(407) Valine is essential for the synthesis of hemoglobin, the protein responsible for transporting oxygen in the blood.

(408) Leucin is essential for the synthesis of hemoglobin, the protein responsible for transporting oxygen in the blood.

(409) Anemias are a group of blood disorders characterized by a decrease in the number of red blood cells or hemoglobin.

(410) People with sickle-cell anemia have abnormal hemoglobin that causes their red blood cells to become sickle-shaped.

(411) Sickle-cell anemia is caused by a mutation in the HBB gene, which codes for the beta-globin subunit of hemoglobin.

(412) When hemoglobin levels are low, it can lead to anemia, which can cause fatigue, weakness, and shortness of breath.

(413) Amino acids are required for the synthesis of hemoglobin, the protein responsible for carrying oxygen in the blood.

(414) Amino acids are also used in the production of hemoglobin, which is essential for transporting oxygen in the blood.

(415) Fetal hemoglobin is being investigated as a potential treatment for other blood disorders, such as beta thalassemia.

(416) Hemoglobin A1c, a form of hemoglobin, is used as a marker for long-term blood sugar control in people with diabetes.

(417) The structural gene is responsible for the production of hemoglobin, the oxygen-carrying molecule in red blood cells.

(418) People with sickle-cell disease have abnormal hemoglobin, which causes their red blood cells to become sickle-shaped.

(419) People with sickle-cell-disease have abnormal hemoglobin that causes their red blood cells to become crescent-shaped.

(420) Haematoidin is a yellow pigment that is formed from the breakdown of hemoglobin, and it can accumulate in the tissues.

(421) Iron deficiency anemia is a common condition that occurs when the body doesn't have enough iron to produce hemoglobin.

(422) Haematoidin is a yellowish pigment that is formed from the breakdown of hemoglobin, and it can be found in old bruises.

(423) The complete blood count revealed that the patient had a low hemoglobin level, which could indicate an iron deficiency.

(424) When haemoglobinuria is suspected, a urine test is usually performed to confirm the presence of hemoglobin in the urine.

(425) Anemia can be diagnosed through blood tests that measure hemoglobin levels and other markers of red blood cell function.

(426) Erythroid maturation is a tightly regulated process that involves the synthesis of hemoglobin and the removal of organelles.

(427) Iron deficiency anemia can be diagnosed through a blood test that measures the levels of hemoglobin and ferritin in the blood.

(428) Although hemoglobin is typically found in red blood cells, it can also be present in other tissues such as the brain and heart.

(429) The amino acid isoleucine is essential for the production of hemoglobin, which is responsible for transporting oxygen in the blood.

(430) Hemoglobinopathies are a group of genetic disorders that affect the structure or function of hemoglobin, such as sickle cell anemia.

(431) Hemoglobinopathies, a group of genetic disorders affecting hemoglobin, can cause symptoms such as anemia, jaundice, and organ damage.

(432) Fetal hemoglobin can help protect against the effects of sickle cell disease by reducing the amount of sickle hemoglobin in the blood.

(433) The chromophore is found in many biological molecules, such as chlorophyll and hemoglobin, and plays a crucial role in their function.

(434) Isoleucine is also important for the production of hemoglobin, the protein in red blood cells that carries oxygen throughout the body.

(435) While hemoglobin is primarily known for its role in oxygen transport, it also plays a role in regulating blood pressure and blood flow.

(436) The formation of haematoidin occurs during the breakdown of hemoglobin, and it is a normal part of the body's waste elimination process.

(437) Glycin is a precursor for the synthesis of heme, a component of hemoglobin, the protein responsible for transporting oxygen in the blood.

(438) Bilirubin is produced when hemoglobin breaks down, and it is then transported to the liver where it is conjugated and excreted in the bile.

(439) Haemoglobinuria occurs when the breakdown of red blood cells releases hemoglobin into the urine, and this can lead to dark or reddish urine.

(440) Although the patient's complete blood count showed low levels of hemoglobin, the doctor recommended further testing before making a diagnosis.

(441) Although hemoglobin is essential for oxygen transport, mutations in the gene that codes for it can lead to diseases such as sickle cell anemia.

(442) Haemoglobinuria can be a result of physical trauma or injury, leading to the destruction of red blood cells and subsequent release of hemoglobin.

(443) Haemoglobinuria is a condition where the breakdown of red blood cells leads to the presence of hemoglobin in the urine, and it can be quite alarming.

(444) Although hemoglobin is primarily known for its role in oxygen transport, it also plays a role in the immune system and can help fight off infections.

(445) While hemoglobin is essential for transporting oxygen throughout the body, it can also bind to other molecules, such as carbon monoxide, which can be harmful.

(446) Although the patient's complete blood count showed a high hemoglobin level, they were still experiencing fatigue, so the doctor ordered additional tests to investigate the cause.

(447) Isoleucine is important for the synthesis of hemoglobin, the protein in red blood cells that carries oxygen throughout the body, as well as for the production of collagen and other connective tissues.

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