生产多不饱和脂肪酸海洋微生物的培养
王菊芳,梁世中
摘要(Abstract):
关键词(KeyWords): 多不饱和脂肪酸;海洋微生物;培养
基金项目(Foundation): 广东省自然科学基金
作者(Author): 王菊芳,梁世中
参考文献(References):
- 1 Akim ota M, IshiiT, Yam agakiK, etal.Metalsaltsrequisitefortheproductionofeicosapentaenoicacid by am arinebacteriumisolated from Macherelintestines. JAOCS, 1991,68(7):504~508
- 2 Ben-am otzA, Tom abeneTG. Chem icalprofile ofselected species ofm icroalgaewith em phasison lipids. JPhycol, 1985,21:72~81
- 3 徐天宇.利用生物技术生产廿碳五烯酸和廿二碳六烯酸.食品与发酵工业,1995(1):56~64
- 4 姜悦,陈峰,梁世中.利用海洋微藻培养生产ω-3多不饱和脂肪酸. 海洋科学,1997(6):18~20
- 5 Cohen Z.Production potentialofEicosapentaenoic Acid by Monodussubterraneus. JAOCS,1994,71(9):941~945
- 6 Beach DH, Harrington GW,Gellerm an JL, etal. Biosynthesis ofoleicacid and docosahexaenoic acid by aheterotrophicm a-rine dinoflagellate Crythecodinium cohnii. Biochim ica etbiophysica acta, 1974,369:16~24
- 7 Shirasaka N, Shimizu S.Production of eicosapentaenoic acid by Saprolegnia sp. 28YTF-1. JAOCS, 1995, 72(12):1 545~1 549
- 8 BaijpaiPK, BajpaiP, Ward O P.Optim ization of production ofdocosahexaenoic acid(DHA) by Thraustochytrium aureumATCC34304. JAOCS, 1991, 68(7):509~514
- 9 Vazhappilly R, Chen Feng. Eicosapentaenoic acid and docosahexaenoic acid production potentialofm icroalgae and theirhet-erotrophic grow th. JAOCS, 1998, 75(3):393~397
- 10 Yongm anitchaiW,WardOP.Growth ofand om ega-3fatty acid production by Phaeodactylum tricornutum underdifferentcul-tureconditions. Applied and environm entalm icrobiology, 1991, 57(2):419~425
- 11 Chen Feng, JohnsRM. EffectofC/N ratio and aeration on thefatty acid com position ofhetertrophoicChlorella sorokiniana.Journalofapplied phycology, 1991, 3:203~209
- 12 Suen Yu, Hubbard JS, HolzerG, etal. Totallipid production ofthe green alga Nannochloropsissp. QIIunderdifferentni-trogen regim es. JPhycol, 1987,23:289~296
- 13 TaguchiS, Hirata JA, Lawa E. Silicate deficiency and lipid synthesisofm arine diatom ofm arinediatom s. JPhycol, 1987,23:260~267
- 14 TuttleRC,Loeblich AR. An optim algrowth m edium forthedinoflagellateCrythecodinium cohnii.Phycologia,1975,14(1):1~8
- 15 Sato N, Murata N. Temperature shift-induced responsesin lipidsin theblue-green alga, Anabaena variabilis. Biochim ica etbiphysica acta, 1980, 619:353~366
- 16 Adlerstein D, Bigogno C. The effectofgrowth tem perature and culture density ofthe molecular species composition ofthegalactolipids in thered m icroalga Prophyridium cruentum (Rhodophyta). JPhycol, 1997, 33:975~979
- 17 Mendoza H., Jim enez DR, Reina GG, etal. Low -tem perature-induced β-carotene and fatty acid synthesis and ultrastruc-turalreorganization ofthe chloroplastin Dunaliella salina(Chlorophyta). EurJPhycol, 1996, 31:329~331
- 18 Seto A, Wang H L, Hesseltine C W. Culture conditions affect eicosapentaenoic acid content of Chlorella minutissim a.JAOCS, 1984, 61(5):892~894
- 19 SuutariM, Laarso S. Tem peratureshifts in regulations oflipids accum ulated by lipom yces starkeyi. JAOCS, 1993, 72(9):891~894
- 20 Okuyam a H, Yam ada K, Kameyam a Y, etal. Regulation ofm embrane lipid synthesisin Escherichia coliaftershiftsin tem -perature. Biochem istry, 1977, 16(12):2 668~2 673
- 21 Thompson A P, Harrison JP, Whyte CN. Influenceofirradiance on the fatty acid com position ofphytoplankton. JPhycol,1990,26:278~288
- 22 Wang SK, ChaiT.Reduction in om ega-3 fatty acids by UV-Birradiation in m icroalgae. Journalofapplied phycology, 1994,6:415~421
- 23 Sicko GL, Anderson NA. Effectofgrowth and light/dark cycleson Diatom lipid contentand com position. JPhycol, 1991,27:710~718