天门冬酰胺

丙烯酰胺生成的机理主要是由游离氨基酸（大多为天门冬酰胺）与还原性糖类通过Maillard反应生成的。

The mechanism of acrylamide generated mainly by amino acids ( mostly asparagine ) and reducing sugars generated through the Maillard reaction .

谷酰胺或天门冬酰胺的酰胺氮作用较氨更有效。

The amide nitrogen of glutamine or asparagine functions more effectively than ammonia .

pH法测定若干金属离子与天门冬酰胺络合反应的热力学参数

The determination of thermodynamic parameters associated with the formation of some metal-asparagine complexes

天门冬酰胺（Asn）在散射光条件下，可促进黑木耳菌丝形成耳基，适宜浓度为0.05%～0.10%

Asn can promote the formation of primordial under scattering light at the 0.05 % ~ 0.1 % concentration .

天门冬酰胺酰甘氨酰精氨酸（NGR）是特异性地定位于肿瘤新生血管受体的多肽基序，在肿瘤诊断和治疗方面具有潜在的应用前景。

The NGR peptide is a ligand specifically binding to tumor angiogenic blood vessels , and thus has potential usage in the diagnosis and therapy of tumor .

芦笋在0～2℃贮藏20d天门冬酰胺、芦丁、芦笋皂甙等功能活性成分的保存率为67%、59.5%、60%。

After storaged at 0 ~ 2 ℃ for 20 days , the components of asparagus , rutin , saponins were 67 % , 59.5 % , 60 % compared to each content before storage .

天门冬酰胺对赤霉酸促进枯草杆菌A（17）α-淀粉酶形成的阻抑作用

The repressive effect of asparagine on gibberellic acid-enhanced synthesis of α - amylase in Bacillus subtilis

天门冬氨酸易于转变成天门冬酰胺。

Aspartate is readily converted to asparagine .

用标记的天门冬氨酸研究证明，它迅速地转变为天门冬酰胺。

Studies with labelled aspartate demonstrate its ready conversion into asparagine .

外来供给的天门冬氨酸，在植物组织中并不是一个活跃的天门冬酰胺前体。

Exogenously supplied aspartate is not an active precursor of asparagine in plant tissues .