期刊目錄列表 - 47卷第1期(2002.4) - 【數理與科技類】47(1)
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比較耐熱性小球藻異營生長之特性
作者:林榮芳、黃檀溪(中央研究院植物研究所)

卷期:47卷第1期
日期:2002年4月
頁碼:31-40
DOI:10.6301/JNTNU.2002.47(1).02

摘要:

小球藻品系繁多,生態類型多樣,其中有些種類可以在38°C 生長,稱為耐熱性小球藻。在微藻應用開發上,耐熱性小球藻具有生長快、容易培養之優點。本文對五株品系之特性加以比較,其中SAG 211-31 分離自德國,SAG 211-32 與SAG 211-34 來自日本,W-87 與T-89 來自台灣。這些藻株的培養不需要生長素,能以尿素作為唯一氮源,可以利用葡萄糖或醋酸作為碳源在黑暗中行異營生長。在含有機碳源下以複分裂迅速繁殖,在適宜的條件下其細胞濃度大約每4 小時增加一倍。在黑暗中經長期異營培養仍然含有葉綠素,只是其含量較低,大約為照光下之50%。由於這類小球藻在型態上不易區別,生理特性也很相似,造成鑑定上之困難,故探討以DNA進行鑑定之可行性,實驗結果證明random amplified polymorphic DNA (RAPD) 可以作為鑑別不同藻株之方法。

關鍵詞:耐熱性小球藻、黑暗培養、異營生長

《詳全文》

中文APA引文格式林榮芳、黃檀溪(2002)。比較耐熱性小球藻異營生長之特性。師大學報:數理與科技類47(1),30-41。doi:10.6301/JNTNU.2002.47(1).02
APA FormatLin, R.-F. & Huang, T.-C. (2002). Comparative Studies on Heterotrophic Growth of Thermophilic Chlorella. Journal of National Taiwan Normal University: Mathematics, Science & Technology, 47(1), 30-41. doi:10.6301/JNTNU.2002.47(1).02

Journal directory listing - Volume 47 Number 1 (2002/April) - Mathematics, Science & Technology【47(1)】
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Comparative Studies on Heterotrophic Growth of Thermophilic Chlorella
Author: Rong-Fong Lin,Tan-Chi Huang(Institute of Botany, Academia Sinica)

Vol.&No.:Vol. 47, No. 1
Date:April 2002
Pages:31-40
DOI:10.6301/JNTNU.2002.47(1).02

Abstract:

The genus Chlorella comprises species which are widely diversified in their physiological and ecological properties. Among them the species which can grow at 38 °C has been grouped as the thermophilic Chlorella. The thermophilic green microalgae have attained great importance not only in basic research but also in various fields of biotechnology. Properties of 5 thermophilic isolates, including SAG 211-31 from Germany, SAG 211-32 and SAG 211-34 from Japan, W-87 and T-89 from Taiwan, were examined. They are able to use urea as sole nitrogen source and no growth factor is needed for their cultivation. They grow rapidly by multiple fission (the optical density of culture was double within 4 h.) in the presence of glucose or acetate. The cells contained chlorophyll even after 10 days (more than 30 generations) of dark heterotrophic growth. Random amplified polymorphic DNA (RAPD) reaction was proved to be a feasible method for identification or differentiation among thermophilic isolates.

Keywords:Heterotrophic growth, Thermophilic Chlorella, Dark growth