Yuge Wang

Production of artemisinin by hairy root cultures of Artemisia annua L

Using a combination of sucrose (70 g/L), nitrate (30 mM), inorganic phosphate (1.5 mM), gibberellic acid (5 mg/L) and the ratio of N (NH ) to N - (NO ) (1:5), artemisinin production was increased to 550 mg/L when the cultures of Artemisia annua L hairy root were elicited with a homogenate of Aspergillus oryzae.

Production of Cloned Goats from Enucleated Oocytes Injected with Cumulus Cell Nuclei or Fused with Cumulus Cells

This study was designed to produce cloned goats from cumulus cells. Cloning donor nuclei were from cumulus cells either freshly isolated or cultured in vitro. Enucleated oocytes were either injected with cumulus cell nuclei without piezo-driven manipulator (injection method) or fused with cumulus cells (fusion method). The survival rate of cloned embryos, obtained by injection, was higher than that derived from fusion (62.7 and 45.9%, respectively). Two cloned goats were derived by fusion with in vitro cultured cumulus cells without starvation, but died shortly after natural birth, from respiratory difficulties. Their birth weights (2.23 kg and 2.03 kg) were within the normal range (2.0-2.7 kg) and postmortem analysis revealed no morphological abnormalities. The third cloned goat, derived by injection of nuclei from freshly isolated cumulus cells, weighed 3.3 kg at birth, and was 37% overweight compared with the average weight of the same species. This goat is healthy and well as this paper is being prepared. Nested PCR-RFLP analysis confirmed that all the cloned goats were derived from the donor cells.

Development of a nutrient mist bioreactor for growth of hairy roots

SummaryHairy root cultures of Artemisia annua L. were cultivated in three different mist bioreactors, each fitted with three stainless steel meshes. The growth rates in the three 2.3-L mist bioreactors differed. After 25 d, the growth index (final dry weight/initial dry weight) of the roots was 42 in a nutrient mist bioreactor, 61 in an inner-loop nutrient mist bioreactor, and 68 in a modified inner-loop nutrient mist bioreactor. Under a misting cycle of 3/30 (ON 3 min/OFF 30 min) for 25 d, dry weight reached 13.6 g/L of medium in the modified inner-loop nutrient mist bioreactor in which nutrient could be supplied without dilution of mist by air flow.

Improvement of artemisinin accumulation in hairy root cultures of Artemisia annua L by fungal elicitor

Abstract The effect of fungal elicitor, derived from mycelial extracts of Penicillium chysogenum 3446, on artemisinin production in hairy root cultures of Artemisia annua L was studied. Various concentrations of elicitor were added to the culture medium after 18 days. Time course experiments were carried out using a defined concentration of elicitor after 18 days. Various ages of hairy root cultures were elicited using a defined concentration of elicitor for 3 days. Artemisinin production in 21-day hairy root cultures treated with 0.3 mg total sugar/ml medium elicitor for 3 days reached to 549.1 mg/l.

Enhanced production of artemisinin by Artemisia annua L hairy root cultures in a modified inner-loop airlift bioreactor

Abstract Hairy root cultures of Artemisia annua L were cultured in a modified inner-loop airlift bioreactor for achieving maximum artemisinin production. The effects of initial pH, air flow rate, cycle of light irradiation and temperature on growth and artmisinin production in Artemisia annua L hairy root cultures were investigated. Under the optimum conditions, the maximum production of artemisinin reached to 577.5 mg/l after 20 days.

Production of artemisinin by hairy root cultures of Artemisia annua L in bioreactor

Hairy root cultures of Artemisia annua L were cultivated in four different culture systems: a flask, a bubble column, a modified bubble column and a modified inner-loop airlift bioreactor. The artemisinin contents of hairy root cultures in the bubble column and the modified inner-loop airlift bioreactor were higher than that in the modified bubble column. The growth rate and hairy root distribution in the modified inner-loop airlift bioreactor were better than those in other bioreactors, and dry weight and artemisinin production reached to 26.8 g/L and 536 mg/L after 20 days.

Cloned goats (Gapra hircus) from foetal fibroblast cell lines

Mammalian cloning has been one of the most active research topics in the world. Cloning within vitro culured foetal fibroblast cells, in comparison with embryonic cells, can be used not only to theoretically study the embryonic or cellular development and differentiation in mammals, but also to utilize the unlimited fibroblast cells to produce large numbers of clonings. The preliminary results are as follows: (i) The division and development of the cloned embryos with embryonic donor cells and goat foetal fibroblast donor cells were 55%, 77% and 35%, 31%, respectively. There is no significant statistical difference between them, (ii) These studies result in the birth of two cloned goats derived from two 30-day foetal fibroblast cell lines, which are the first cloned mammals from somatic cells in China. This project has established a technological data base for the furture research on adult mammalian somatic cloning and nucleocytoplasmic interactions in animal development, and a novel technique for the cloning of animals with a high-level expression of transgene(s).

Co-expression of multiple gene constructs in transgenic mice

Multiple-transgene co-integration offers a powerful means by which several transgenes can be co-expressed in mammary glands. Independent gene constructs, including bovine α-casein-hG-CSF, mWAP-hEPO, and CMV-EGFP, were co-injected into fertilized mouse eggs whereupon 32% (17/54) of the transgenic mice showed integration of all the three constructs. The co-expression ratio of hG-CSF and hEPO proteins in the mouse milk was up to 54% (6/11), attributable to co-integration. Maximal expression of human EPO and G-CSF was about 1 mg l−1 and 540 mg l−1 milk, respectively. There was an inverse relationship between transgene fragment length and integration ratio, and evidence that co-integration events are favoured above single integration events, suggesting that integration of multiple genes may be more facilitated than a single gene. The results have important practical implications for the generation of mammary gland bioreactors, multiple transgene co-integration appearing to be a useful strategy for generating animals expressing several transgenes simultaneously.