non-haemoprotein iron
非血红蛋白铁
containing non-haemoprotein
含有非血红蛋白
non-haemoprotein source
非血红蛋白来源
non-haemoprotein absorption
非血红蛋白吸收
non-haemoprotein form
非血红蛋白形式
non-haemoprotein iron levels
非血红蛋白铁含量
assessing non-haemoprotein
评估非血红蛋白
non-haemoprotein storage
非血红蛋白储存
non-haemoprotein utilization
非血红蛋白利用
increased non-haemoprotein
非血红蛋白增加
non-haemoprotein enzymes often require cofactors for activity.
非血红蛋白酶通常需要辅因子才能发挥作用。
the non-haemoprotein iron center is crucial for catalysis.
非血红蛋白铁中心对催化至关重要。
many non-haemoprotein peroxidases utilize tyrosine residues.
许多非血红蛋白过氧化物酶利用酪氨酸残基。
non-haemoprotein copper enzymes are involved in redox reactions.
非血红蛋白铜酶参与氧化还原反应。
understanding non-haemoprotein mechanisms is vital for drug design.
理解非血红蛋白机制对于药物设计至关重要。
non-haemoprotein heme-binding proteins exhibit diverse functions.
非血红蛋白血红素结合蛋白表现出多样化的功能。
the stability of non-haemoprotein complexes is a research focus.
非血红蛋白复合物的稳定性是研究重点。
non-haemoprotein oxidases catalyze the oxidation of substrates.
非血红蛋白氧化酶催化底物的氧化。
investigating non-haemoprotein structures reveals catalytic strategies.
研究非血红蛋白结构揭示了催化策略。
non-haemoprotein enzymes demonstrate unique substrate specificity.
非血红蛋白酶表现出独特的底物特异性。
the role of non-haemoprotein iron in bacterial pathogenesis is significant.
非血红蛋白铁在细菌致病性中的作用非常重要。
non-haemoprotein iron
非血红蛋白铁
containing non-haemoprotein
含有非血红蛋白
non-haemoprotein source
非血红蛋白来源
non-haemoprotein absorption
非血红蛋白吸收
non-haemoprotein form
非血红蛋白形式
non-haemoprotein iron levels
非血红蛋白铁含量
assessing non-haemoprotein
评估非血红蛋白
non-haemoprotein storage
非血红蛋白储存
non-haemoprotein utilization
非血红蛋白利用
increased non-haemoprotein
非血红蛋白增加
non-haemoprotein enzymes often require cofactors for activity.
非血红蛋白酶通常需要辅因子才能发挥作用。
the non-haemoprotein iron center is crucial for catalysis.
非血红蛋白铁中心对催化至关重要。
many non-haemoprotein peroxidases utilize tyrosine residues.
许多非血红蛋白过氧化物酶利用酪氨酸残基。
non-haemoprotein copper enzymes are involved in redox reactions.
非血红蛋白铜酶参与氧化还原反应。
understanding non-haemoprotein mechanisms is vital for drug design.
理解非血红蛋白机制对于药物设计至关重要。
non-haemoprotein heme-binding proteins exhibit diverse functions.
非血红蛋白血红素结合蛋白表现出多样化的功能。
the stability of non-haemoprotein complexes is a research focus.
非血红蛋白复合物的稳定性是研究重点。
non-haemoprotein oxidases catalyze the oxidation of substrates.
非血红蛋白氧化酶催化底物的氧化。
investigating non-haemoprotein structures reveals catalytic strategies.
研究非血红蛋白结构揭示了催化策略。
non-haemoprotein enzymes demonstrate unique substrate specificity.
非血红蛋白酶表现出独特的底物特异性。
the role of non-haemoprotein iron in bacterial pathogenesis is significant.
非血红蛋白铁在细菌致病性中的作用非常重要。
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