反芻動物體內(nèi)錳元素（大米螯合錳Manganese Rice Chelate）的吸收、分布與利用機制

錳（大米螯合錳Manganese Rice Chelate）作為動物必需的微量元素，在動物生理活動中扮演著重要角色。當(dāng)動物通過采食攝入錳后，錳元素在腸道內(nèi)以簡單擴散和主動運輸?shù)确绞娇缭侥c道屏障，進入機體內(nèi)環(huán)境，隨后隨血液循環(huán)被輸送至各個器官。血液中的錳（大米螯合錳Manganese Rice Chelate）主要通過兩種途徑參與機體代謝。其一，部分二價錳會與 α2 - 巨球蛋白、β- 球蛋白和 γ- 球蛋白緊密結(jié)合，形成具有轉(zhuǎn)運功能的轉(zhuǎn)錳素，隨著巨球蛋白被機體利用，錳元素也隨之被吸收利用。其二，由于錳與鐵之間存在著極強的親和力，部分游離態(tài)的錳先被鐵氧化酶 I 氧化為二價錳，再與轉(zhuǎn)鐵蛋白結(jié)合形成復(fù)合物，隨后被肝臟攝取，參與造血及體內(nèi)循環(huán)等生理過程。在動物的肝臟等器官中，細(xì)胞內(nèi)的線粒體憑借其較強的錳攝取能力，成為了錳元素（大米螯合錳Manganese Rice Chelate）的主要利用場所。已有研究表明，牛、羊等反芻動物肝臟中的錳濃度為 8~12 μg/g，肌肉中的錳濃度為 0.034~0.156 mg/kg，血液中的錳濃度則為 0.023~0.067 mg/L。由此可見，富含線粒體的肝臟、腎臟等器官是動物體內(nèi)錳元素的主要富集部位，且其錳含量會隨著飼料中錳水平的升高而增加。

反芻動物體內(nèi)錳元素（大米螯合錳Manganese Rice Chelate）的吸收、分布與利用機制

公司官網(wǎng)：www.wilincare.net歡迎選購！

抗壞血酸錳Manganese Ascorbate、抗壞血酸亞鐵Ferrous Ascorbate、賴氨酸甘氨酸鎂Magnesium Lysinate Glycinate、甘氨酸谷氨酰胺鎂Magnesium Glycinate Glutamine、檸檬酸蘋果酸鎂Magnesium Citrate Malate、檸檬酸鍶Strontium Citrate、檸檬酸錳Manganese Citrate、檸檬酸銅Copper Citrate、天門冬氨酸鋰Lithium Aspartate、?；撬嵛?span style="font-family:"Times New Roman";">Selenium Taurate.

Mechanism of absorption, distribution and utilization of manganese (Manganese rice chelate) in ruminants

Manganese (Manganese Rice Chelate), as an essential trace element for animals, plays an important role in animal physiological activities. When animals ingest manganese through feeding, manganese crosses the intestinal barrier through simple diffusion and active transport in the intestine, enters the internal environment, and is then transported to various organs with blood circulation. Manganese in the blood (Manganese Rice Chelate) is mainly involved in the body's metabolism through two main pathways. First, some of the divalent manganese will bind tightly to α2-macroglobulin, β-globulin and γ-globulin to form transfermanganese with transport function, and as macroglobulin is used by the body, manganese is also absorbed and utilized. Second, due to the strong affinity between manganese and iron, part of the free manganese is first oxidized by iron oxidase I to divalent manganese, and then combined with transferrin to form a complex, which is then taken up by the liver and participates in physiological processes such as hematopoiesis and internal circulation. In animal livers and other organs, intracellular mitochondria have become the main utilization sites of manganese (Manganese rice chelate) due to their strong manganese uptake capacity. Studies have shown that the concentration of manganese in the liver of cattle, sheep and other ruminants is 8~12 μg/g, the concentration of manganese in muscle is 0.034~0.156 mg/kg, and the concentration of manganese in blood is 0.023~0.067 mg/L. It can be seen that mitochondria-rich liver, kidney and other organs are the main accumulation sites of manganese in animals, and their manganese content will increase with the increase of manganese level in feed.

Company official website: www.wilincare.net Welcome to buy!

Manganese Ascorbate, Ferrous Ascorbate, Magnesium Lysinate Glycinate, Magnesium Glycinate Glutamine, Magnesium Citrate Malate, Strontium Citrate, Manganese Citrate, Copper Citrate, Lithium Aspartate, Selenium Taurate.