1-氨基环丙烷-1-甲酸

1-氨基环丙烷-1-甲酸
	IUPAC名; 1-Aminocyclopropane-1-carboxylic acid; 1-氨基环丙烷-1-甲酸
别名	1-氨基环丙烷甲酸
识别
缩写	ACC
CAS号	22059-21-8
PubChem	535
ChemSpider	520
SMILES	C(O)(=O)C1(CC1)(N);
InChI	1/C4H7NO2/c5-4(1-2-4)3(6)7/h1-2,5H2,(H,6,7);
InChIKey	PAJPWUMXBYXFCZ-UHFFFAOYAF
ChEBI	58360
DrugBank	DB02085
KEGG	C01234
性质
化学式	C4H7NO2
摩尔质量	101.1 g·mol−1
熔点	198-201 °C（270 K）
	若非注明，所有数据均出自标准状态（25 ℃，100 kPa）下。

1-氨基环丙烷-1-甲酸，简称ACC，是一种双取代的环状α-氨基酸，其中环丙烷环与氨基酸的C_α原子稠合。它是一种白色固体。目前已知有许多种环丙烷取代的氨基酸，但这种是天然存在的。^[2]与甘氨酸一样，但与大多数α-氨基酸不同，ACC不是手性的。

生物化学

ACC是植物激素乙烯的前体。^[3]^[4]它由ACC合酶（EC 4.4.1.14）从甲硫氨酸合成，并通过ACC氧化酶（EC 1.14.17.4）转化为乙烯。^[5]

ACC还表现出不依赖于乙烯的信号传导，该信号通过激活类似于人类和动物神经系统反应所涉及的蛋白质，在授粉和种子生产中发挥关键作用。更具体地说，ACC信号促进花粉管趋化因子LURE1.2在胚珠孢子体组织中的分泌，从而增强花粉管的吸引力。此外，ACC通过根原生质体中的谷氨酸受体样通道激活含Ca²⁺的离子流。^[6]

ACC可被土壤微生物（细菌和真菌）用作氮和碳的来源。^[7]因此，已证明使用ACC培养土壤可诱导编码ACC脱氨作用的基因丰度，这可能对植物生长和胁迫耐受性产生积极影响。^[7]^[8]

ACC也曾从海带中提取。^[9]

ACC也是哺乳动物 NMDA受体的外源性部分激动剂。^[10]

2019年，美国环境保护局发出通知，申请颁发ACC作为杀虫剂的实验使用许可证。^[11]

参考资料

^ Caspi R, Foerster H, Fulcher CA, Hopkinson R, Ingraham J, Kaipa P, et al. MetaCyc: a multiorganism database of metabolic pathways and enzymes. Nucleic Acids Research. January 2006, 34 (Database issue): D511–6. PMC 1347490 . PMID 16381923. doi:10.1093/nar/gkj128.
^ Brackmann F, de Meijere A. Natural Occurrence, Syntheses, and Applications of Cyclopropyl-Group-Containing α-Amino Acids. 1. 1-Aminocyclopropanecarboxylic Acid and Other 2,3-Methanoamino Acids. Chemical Reviews. November 2007, 107 (11): 4493–4537. PMID 17944521. doi:10.1021/cr078376j.
^ Yang S, Hoffman N. Ethylene biosynthesis and its regulation in higher plants. Annu. Rev. Plant Physiol. 1984, 35: 155–189. doi:10.1146/annurev.pp.35.060184.001103.
^ Kende H. Ethylene biosynthesis. Annu. Rev. Plant Physiol. 1993, 44: 283–307. doi:10.1146/annurev.pp.44.060193.001435.
^ Kende H. Enzymes of ethylene biosynthesis. Plant Physiology. September 1989, 91 (1): 1–4. PMC 1061940 . PMID 16666977. doi:10.1104/pp.91.1.1.
^ Mou W, Kao YT, Michard E, Simon AA, Li D, Wudick MM, et al. Ethylene-independent signaling by the ethylene precursor ACC in Arabidopsis ovular pollen tube attraction. Nature Communications. August 2020, 11 (1): 4082. Bibcode:2020NatCo..11.4082M. PMC 7429864 . PMID 32796832. doi:10.1038/s41467-020-17819-9 .
^ ^7.0 ^7.1 Liu H, Khan MY, Carvalhais LC, Delgado-Baquerizo M, Yan L, Crawford M, et al. Soil amendments with ethylene precursor alleviate negative impacts of salinity on soil microbial properties and productivity. Scientific Reports. May 2019, 9 (1): 6892. Bibcode:2019NatSR...9.6892L. PMC 6499801 . PMID 31053834. doi:10.1038/s41598-019-43305-4.
^ Farahat MG, Mahmoud MK, Youseif SH, Saleh SA, Kamel Z. Alleviation of salinity stress in wheat by ACC deaminase-producing Bacillus aryabhattai EWR29 with multifarious plant growth-promoting attributes. Plant Archives. 2020, 20 (1): 417–429 [2023-03-06]. （原始内容存档于2021-12-09）.
^ Nelson W, van Staden J. Aminocyclopropane-1-carboxylic acid in seaweed concentrate. Botanica Marina. 1985, 28 (9): 415-417. doi:10.1515/botm.1985.28.9.415.
^ Inanobe A, Furukawa H, Gouaux E. Mechanism of partial agonist action at the NR1 subunit of NMDA receptors. Neuron. July 2005, 47 (1): 71–84. PMID 15996549. S2CID 16033761. doi:10.1016/j.neuron.2005.05.022 .
^ Pesticide Experimental Use Permit; Receipt of Application; Comment Request (PDF). Federal Register. August 7, 2019, 84 (152): 38624 [2023-03-06]. （原始内容存档 (PDF)于2023-04-17） –通过www.govinfo.gov.

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[pmid16381923-1] Caspi R, Foerster H, Fulcher CA, Hopkinson R, Ingraham J, Kaipa P, et al. MetaCyc: a multiorganism database of metabolic pathways and enzymes. Nucleic Acids Research. January 2006, 34 (Database issue): D511–6. PMC 1347490 . PMID 16381923. doi:10.1093/nar/gkj128.

[2] Brackmann F, de Meijere A. Natural Occurrence, Syntheses, and Applications of Cyclopropyl-Group-Containing α-Amino Acids. 1. 1-Aminocyclopropanecarboxylic Acid and Other 2,3-Methanoamino Acids. Chemical Reviews. November 2007, 107 (11): 4493–4537. PMID 17944521. doi:10.1021/cr078376j.

[Yang_1984-3] Yang S, Hoffman N. Ethylene biosynthesis and its regulation in higher plants. Annu. Rev. Plant Physiol. 1984, 35: 155–189. doi:10.1146/annurev.pp.35.060184.001103.

[Kende_1993-4] Kende H. Ethylene biosynthesis. Annu. Rev. Plant Physiol. 1993, 44: 283–307. doi:10.1146/annurev.pp.44.060193.001435.

[Kende_1989-5] Kende H. Enzymes of ethylene biosynthesis. Plant Physiology. September 1989, 91 (1): 1–4. PMC 1061940 . PMID 16666977. doi:10.1104/pp.91.1.1.

[6] Mou W, Kao YT, Michard E, Simon AA, Li D, Wudick MM, et al. Ethylene-independent signaling by the ethylene precursor ACC in Arabidopsis ovular pollen tube attraction. Nature Communications. August 2020, 11 (1): 4082. Bibcode:2020NatCo..11.4082M. PMC 7429864 . PMID 32796832. doi:10.1038/s41467-020-17819-9 .

[Liu_2019-7] 7.0 ^7.1 Liu H, Khan MY, Carvalhais LC, Delgado-Baquerizo M, Yan L, Crawford M, et al. Soil amendments with ethylene precursor alleviate negative impacts of salinity on soil microbial properties and productivity. Scientific Reports. May 2019, 9 (1): 6892. Bibcode:2019NatSR...9.6892L. PMC 6499801 . PMID 31053834. doi:10.1038/s41598-019-43305-4.

[8] Farahat MG, Mahmoud MK, Youseif SH, Saleh SA, Kamel Z. Alleviation of salinity stress in wheat by ACC deaminase-producing Bacillus aryabhattai EWR29 with multifarious plant growth-promoting attributes. Plant Archives. 2020, 20 (1): 417–429 [2023-03-06]. （原始内容存档于2021-12-09）.

[9] Nelson W, van Staden J. Aminocyclopropane-1-carboxylic acid in seaweed concentrate. Botanica Marina. 1985, 28 (9): 415-417. doi:10.1515/botm.1985.28.9.415.

[pmid15996549-10] Inanobe A, Furukawa H, Gouaux E. Mechanism of partial agonist action at the NR1 subunit of NMDA receptors. Neuron. July 2005, 47 (1): 71–84. PMID 15996549. S2CID 16033761. doi:10.1016/j.neuron.2005.05.022 .

[11] Pesticide Experimental Use Permit; Receipt of Application; Comment Request (PDF). Federal Register. August 7, 2019, 84 (152): 38624 [2023-03-06]. （原始内容存档 (PDF)于2023-04-17） –通过www.govinfo.gov.

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