Details of Natural Product (NP) | NPcVar

General Information of Natural Product (ID: NP1240)
Natural Product Name		Cystine
Synonyms		DL-CYSTINE; 923-32-0; cystine; 3,3'-disulfanediylbis(2-aminopropanoic acid); Dicysteine; 56-89-3; Cystin; Cystine acid; Cysteine disulfide; (H-Cys-OH); 2-amino-3-[(2-amino-2-carboxyethyl)disulfanyl]propanoic acid; Cystine, L-; NSC13203; MFCD00084652; (-)-Cystine; .beta.,.beta.'-Dithiodialanine; CHEBI:17376; Alanine, 3,3'-dithiobis-; Cystine, DL-; alpha-Diamino-beta-dithiolactic acid; 3,3'-Dithiobis(2-aminopropanoic acid); 3,3'-Dithiobis(2-aminopropionic acid); Bis(.beta.-amino-.beta.-carboxyethyl) disulfide; C6H12N2O4S2; NSC 13203; cistina; Zystin; MFCD00064228; NSC-13203; D,L-cystine; NCGC00164531-01; Cystine,(S); Alanine,3'-dithiodi-; DL-Cystine, 99%; Alanine,3'-dithiobis-; DL-Cystine, free base; 90350-38-2; L-3,3'-dithiodialanine; (H-DL-Cys-OH)2; CYSTINE, (L); Cystine_RamanathanGurudeeban; SCHEMBL10224; CHEMBL366563; BDBM86199; .beta.,.beta.'-Dithiobisalanine; CAS_595; DTXSID50859005; NSC_595; Pharmakon1600-01300099; BCP29195; BBL011587; CAS_67678; NSC_67678; NSC203781; NSC205366; NSC755897; STL163324; AKOS000121517; AKOS016050601; AM81645; CS-W014656; FD21212; MCULE-2293704247; NSC-203781; NSC-205366; NSC-755897; .beta.,.beta.'-dicarboxydiethyldisulfide; 3,7-diamino-5-phenyl-phenaziniuchloride; NCGC00164531-02; NCGC00164531-03; AS-66164; K684; SY033311; SY036878; SY038309; .beta.,.beta.'-dicarboxydiethyl disulfide; SBI-0207067.P001; DB-052986; FT-0624467; FT-0625453; FT-0627753; FT-0770594; 24645-67-8; (+/-)-3,3'-Dithiobis(2-aminopropionicacid); Bis(.beta.-amino-.beta.-carboxyethyl)disulfide; C-9765; C01420; L-Cystine-1,1 inverted exclamation marka-13C2; 923C320; SR-01000872746; SR-01000872746-1; Q27102343; Z56346947; L-Cystin;Acetylcysteine Impurity A;3,3'-Dithiodialanine; Propanoic acid,3'-dithiobis[2-amino-, [R-(R,R)]-; .beta.,.beta.'-Diamino-.beta.,.beta.'-dicarboxydiethyl disulfide; 5228F255-51E7-421E-8A05-4687B20118CB; 2-amino-3-(2-amino-3-hydroxy-3-oxopropyl)disulfanylpropans?ure; 2-amino-3-[(2-amino-3-hydroxy-3-oxo-propyl)disulfanyl]propanoic acid; 4746-38-7 Click to Show/Hide
Formula		C₆H₁₂N₂O₄S₂
Weight		240.3
Structure
Structure		3D Structure Download			2D Structure Download
InChI		InChI=1S/C6H12N2O4S2/c7-3(5(9)10)1-13-14-2-4(8)6(11)12/h3-4H,1-2,7-8H2,(H,9,10)(H,11,12)
InChI Key		LEVWYRKDKASIDU-UHFFFAOYSA-N
Isomeric SMILES		C(C(C(=O)O)N)SSCC(C(=O)O)N
Canonical SMILES		C(C(C(=O)O)N)SSCC(C(=O)O)N
External Links		PubChem ID		595
		CAS ID		923-32-0
		CHEMBL ID		CHEMBL366563
NP Activity Charts		Click to show/hide
Activity Info

The Content Variation of Natural Product Induced by Different Factor(s)
Species Name: Lagenaria siceraria
					Factor Name: Cultivar Comparison; Developmental Stage Variation																																																																[1]
Species Info Factor Info
Experiment Detail																						The experiment was conducted from July to November 2007 at the experimental station of the University of Abobo-Adjame (Abidjan, Ivory Coast) (latitude between 5° 17′ and 5° 31′ N, longitude between 3° 45′ and 4° 22′ W). During this period, rainfall, mean temperature and humidity varied from 5.33 to 192.28 mm, from 23.3 to 26.4 ℃ and from 86.7 to 96% respectively. Open-pollinated accessions from two edible-seeded L. siceraria (Molina) Standl. cultivars recognisable by their fruit shape (oval or round) were used. Seeds from the round fruit cultivar are characterised by the presence of a cap on the distal side, whereas those from the oval fruit cultivar lack this cap. Differences are also noted between the two cultivars in their rates of seed germination and seedling emergence, the best performances being observed for the round fruit cultivar. However, the visual changes in fruits during their growth as well as at plant whiteness are the same in the two cultivars. Both round and oval fruit cultivars were obtained from the cucurbit germplasm of the university, where they are identified by the alphanumeric codes NI354 and NI260 respectively. Each cultivar was sown on a plot of 20 m × 20 m in 12 holes. Female flowers were tagged after their closure in order to monitor the fruits until the date determined for harvesting. Fruits were harvested at three stages of maturation: (i) 30 days after fruit set (DAFS), at which stage fruits do not grow any more; (ii) 50 DAFS, at which stage the colour of fruits no longer changes; (iii) complete plant whiteness (CPW), indicating the end of plant growth. For each of the three fruit maturation times, five fruits per cultivar were selected. The seeds were extracted from each fruit, washed and dried in the sun for 1 week. After drying, the seeds of all five fruits were grouped and decorticated to obtain seed kernels that were used for analysis. Click to Show/Hide
Factor Function																						The results of this study showed that there were considerable modifications during fruit maturation in the oilseed gourd L. siceraria and that chemical characterisation of the seed kernel is important for controlling the processes of maturation. The two cultivars of L. siceraria studied should be harvested at 50 days after fruit set (DAFS) owing to their high contents of proteins, lipids, energy and minerals at this stage. At 50 DAFS the leaves of L. siceraria were still green and could serve as a source of nutrients for livestock. However, to obtain the best amino acid composition and biological values of proteins, the round and oval berry cultivars should be harvested at 30 DAFS and complete plant whiteness (CPW) respectively. At these stages their proteins could be used as a supplement. The low digestibility of the proteins at this stage could be improved by appropriate technological treatment. Click to Show/Hide
Factor																																								Part										Location																				NP Content
Lagenaria siceraria cv. Round berry + Harvesting time: 30 days after fruit set																																								Seed kernels										Abidjan, Cote d'lvoire																				NP Content: 6.2 ± 0.8 g/kg dry matter
Lagenaria siceraria cv. Round berry + Harvesting time: 50 days after fruit set																																								Seed kernels										Abidjan, Cote d'lvoire																				NP Content: 4.9 ± 0.0 g/kg dry matter
Lagenaria siceraria cv. Round berry + Harvesting time: complete plant whiteness stage																																								Seed kernels										Abidjan, Cote d'lvoire																				NP Content: 5.0 ± 0.1 g/kg dry matter
Lagenaria siceraria cv. Oval berry + Harvesting time: 30 days after fruit set																																								Seed kernels										Abidjan, Cote d'lvoire																				NP Content: 5.2 ± 0.2 g/kg dry matter
Lagenaria siceraria cv. Oval berry + Harvesting time: 50 days after fruit set																																								Seed kernels										Abidjan, Cote d'lvoire																				NP Content: 4.6 ± 0.1 g/kg dry matter
Lagenaria siceraria cv. Oval berry + Harvesting time: complete plant whiteness stage																																								Seed kernels										Abidjan, Cote d'lvoire																				NP Content: 5.1 ± 0.0 g/kg dry matter

References
1	Effect of harvest time on seed oil and protein contents and compositions in the oleaginous gourd Lagenaria siceraria (Molina) Standl

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