血红蛋白分子

结论：pH值与细胞的形态、膜的变形能力、流动特性和胞内血红蛋白分子氧合能力密切相关。

CONCLUSION : The morphology , the compliance of membrane , the flow character of the cell and the oxygen carrying capacity of hemoglobin molecules inside the cell are closely related to the pH.

以不同方式使之带电状态恢复后的老龄红细胞在细胞形态、聚集状态、细胞膜变形性、血红蛋白分子结构功能上也得到了不同程度的改善，其中又以SA组最为显著。

With membrane surface charge increased , the old cell 's morphology , aggregation state , membrane deformability , and the hemoglobin 's structure were comeback in different extent to the levels as the young one respectively .

真核细胞蛋白酶体降解血红蛋白分子机理

Study on Molecular Mechanism of Hemoglobin Degraded by Eukaryotes ' Proteasomes

人血红蛋白分子印迹聚合物的制备及分子识别性能

Preparation and Specific Molecular Recognition Properties of Human Hemoglobin Imprinted Polymers

胆红素与血红蛋白分子作用的发光光谱分析

Spectral Analyses for the Molecular Interaction between Bilirubin and Hemoglobin

血红蛋白分子只含有四个铁原子。

The haemoglobin molecule contains only four atoms of iron .

每一个血红蛋白分子是由4个亚基组成的，即为四聚体。

Each hemoglobin molecule consists of four sub units , known as tetramers .

一些双功能试剂也能使每个血红蛋白分子内部交联，以防止分解成二聚体。

Some bifunctional agents can also cross-link each hemoglobin molecule internally to prevent its breakdown into dimers .

以丙烯酰胺和甲基丙烯酸为功能单体制备得到了具有选择性识别能力的人血红蛋白分子印迹聚合物。

Using acrylamide and methylacrylic acid as functional monomers , human hemoglobin molecular-imprinting-polymers ( HHb-MIPs ) were successfully prepared .

即使在第二代血液替代品中，血红蛋白分子也没有血红细胞膜来保护。

Even in those second-generation substitutes , the hemoglobin molecules will not be protected by a red blood cell membrane .

应用于细菌的重组技术，能够产生不分解成半分子的可变化的血红蛋白分子。

Recombinant technology applied to the bacterium can produce altered hemoglobin molecules that do not break down into half molecules .

当被注射到体内以后，每个血红蛋白分子会分解成有潜在毒性的半分子，或二聚体。

When infused into the body , a hemoglobin molecule breaks down into potentially toxic half molecules , or dimmers .

因发现血红蛋白分子结构与肯德鲁共获1962年诺贝尔化学奖。

He received , with Kendrew , the Nobel Prize for chemistry in 1962 for the first solutions of the structure of haemoglobin .

但是有一个可能是血液替代品里面的血红蛋白分子夺取氧化一氮分子，这些分子一般发挥舒张血管和组织血小板凝集作用。

But one possibility is that hemoglobin molecules in substitute blood capture nitric oxide molecules that normally dilate blood vessels and keep platelets from getting sticky .

而外部环境的变化，如渗透压、药物处理、氧气分压等可能引起红细胞内血红蛋白分子构象发生变化。

The changes of the external environment , such as osmotic pressure , drug treatment , or the pressure of oxygen may induce conformation change of hemoglobin .

以获取高营养性的蚯蚓含铁蛋白质为目的，根据蚯蚓体内血红蛋白分子结构的特性与分布状态，采用了双水相萃取等分离纯化工艺进行了制备生物态含铁蛋白质纯品的研究。

Aim at obtaining iron-containing protein from earthworm as nutrient , aqueous two-phase extraction and other methods were performed in purification process based on the characters and their exist state of hemoglobin in earthworm body .

血红蛋白的分子结构及与其载氧功能相关的药物研究进展

Structure of Hemoglobin and Progress in Research of the Related Drags

招远市异常血红蛋白的分子结构

Molecular structure of an abnormal hemoglobin in Zhao Yuan

结果表明该方法能比较有效地缩小聚合血红蛋白的分子量分布。

The results show that the poly-Hb with narrower molecular weight distribution is prepared in this way .

血红蛋白与NO分子间相互作用的电化学表征

Electrochemical Characterization on the Interaction Between Hemoglobin and NO Molecule

黑色素、血红蛋白和水分子是引起皮肤吸收的主要因素。

Melanin , hemoglobin and water molecules are the main factors causing skin absorption .

激光双光子诱导血红蛋白等生物分子荧光特性的研究

Study of two-photon induced fluorescence of protein

本文用现场扫描隧道显微镜（STM）研究了血红蛋白（Hb）分子在二类不同性质的有机溶剂中的结构变化。

In situ STM has been used to study the structure of hemoglobin ( Hb ) in two kinds of organic media .

用优化结果固定牛血红蛋白，催化小分子底物H2O2，相对酶活力能达到81.4%，显示出载体材料的优越性。

Finally immobilized enzyme of hemoglobin bovine ( HB ), based on optimal results , is prepared to catalyze small molecule substrate of H_2O_2 . Its relative activity reaches 81.4 % which exhibits the superiority of these carrier materials .

5-硝基-1H-吲哚-2-羧酸与牛血红蛋白相互作用的分子模拟与光谱研究

Molecule simulation and spectroscopic studies of interaction between 5-nitro-1H-indole-2-acid and bovine hemoglobin

生物体内的天然氧载体，如血红蛋白、肌红蛋白等分子量大、结构复杂，其载氧机制的研究很困难。

Due to high molecular weights and complicated structures of natural oxygen carriers such as hemoglobin , myoglobin , the oxygen-uptake mechanism studies were very difficult .

研究者正在寻找解决这个问题的办法，包括血红蛋白交联所需要的酶，或者进一步改善血红蛋白的分子结构。

Researchers are studying ways to solve this problem , including cross-linking the required enzymes to hemoglobin or further modifying the molecular structure of hemoglobin .

猪血红蛋白特殊的氧亲和力和来源丰富的优点使其成为一种血红蛋白类氧载体分子设计和产业化产品制备的有用材料的选择。

Rich supply , the unique properties of oxygen affinity and relative stability of porcine hemoglobin could make this type of protein a useful material in molecular design and large-scale production of HBOCs .