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71.
Multiple virus resistance in transgenic plants conferred by the human dsRNA-dependent protein kinase
Pyung Ok Lim Ung Lee Jong Sang Ryu Jang Kyung Choi Ara Hovanessian Cheol Soo Kim Baik Ho Cho Hong Gil Nam 《Molecular breeding : new strategies in plant improvement》2002,10(1-2):11-18
We have developed a new strategy for engineering resistance to multipleviruses in plants. The strategy exploits the human double stranded (ds)RNA-dependent protein kinase (PKR). PKR is one of theinterferon-induced enzymes. It confers viral resistance in mammals byinhibitingviral replication through the inactivation of the translational initiationfactor, eIF-2, upon activation by dsRNA. The humanPKR gene was fused to the promoter of theArabidopsis blue copper binding protein gene(BCB) that is induced rapidly in response to wounding. Thechimeric gene cassette was introduced into tobacco plants. Expression of thePKR gene in transgenic tobacco plants was demonstrated byRNA gel blot analysis and autophosphorylation assay of anM
r 68,000 protein. The transgenic plantsexpressing the PKR gene showed significantly reduced viralsymptoms or no viral symptoms at all, when challenged by different plant RNAviruses, such as Cucumber mosaic virus, Tobaccoetch virus, or Potato virus Y. Thus, expressionof a single component in the human interferon pathway, thePKR gene, can effectively confer resistance to multipleviruses in transgenic plants. 相似文献
72.
Phytase enzymology, applications, and biotechnology 总被引:13,自引:1,他引:12
Phytases are phosphohydrolases that initiate the step-wise removal of phosphate from phytate. These enzymes have been widely used in animal feeding to improve phosphorus nutrition and to reduce phosphorus pollution of animal waste. The potential of phytases in improving human nutrition of essential trace minerals in plant-derived foods is being explored. This review covers the basic biochemistry and application of phytases, and emphasizes the emerging biotechnology used for developing new effective phytases with improved properties. 相似文献
73.
Sporamin, a sweet potato tuberous storage protein, is a Kunitz-type trypsin inhibitor. Its capability of conferring insect-resistance on transgenic tobacco and cauliflower has been confirmed. To test its potential as an anti-feedant for the beet cyst nematode (Heterodera schachtii Schm.), the sporamin gene SpTI-1 was introduced into sugar beet (Beta vulgaris L.) by Agrobacterium rhizogenes-mediated transformation. Twelve different hairy root clones expressing sporamin were selected for studying nematode development. Of these, 8 hairy root clones were found to show significant efficiency in inhibiting the growth and development of the female nematodes whereas 4 root clones did not show any inhibitory effects even though the SpTI-1 gene was regularly expressed in all of the tested hairy roots as revealed by northern and western analyses. Inhibition of nematode development correlated with trypsin inhibitor activity but not with the amount of sporamin expressed in hairy roots. These data demonstrate that the trypsin inhibitor activity is the critical factor for inhibiting growth and development of cyst nematodes in sugar beet hairy roots expressing the sporamin gene. Hence, the sweet potato sporamin can be used as a new and effective anti-feedant for controlling cyst nematodes offering an alternative strategy for establishing nematode resistance in crops. 相似文献
74.
Molecular farming of pharmaceutical proteins 总被引:38,自引:0,他引:38
Molecular farming is the production of pharmaceutically important and commercially valuable proteins in plants. Its purpose
is to provide a safe and inexpensive means for the mass production of recombinant pharmaceutical proteins. Complex mammalian
proteins can be produced in transformed plants or transformed plant suspension cells. Plants are suitable for the production
of pharmaceutical proteins on a field scale because the expressed proteins are functional and almost indistinguishable from
their mammalian counterparts. The breadth of therapeutic proteins produced by plants range from interleukins to recombinant
antibodies. Molecular farming in plants has the potential to provide virtually unlimited quantities of recombinant proteins
for use as diagnostic and therapeutic tools in health care and the life sciences. Plants produce a large amount of biomass
and protein production can be increased using plant suspension cell culture in fermenters, or by the propagation of stably
transformed plant lines in the field. Transgenic plants can also produce organs rich in a recombinant protein for its long-term
storage. This demonstrates the promise of using transgenic plants as bioreactors for the molecular farming of recombinant
therapeutics, including vaccines, diagnostics, such as recombinant antibodies, plasma proteins, cytokines and growth factors.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
75.
现代生物技术的发展,尤其是蛋白质纯化技术及基因分子生物学技术的发展大大地推动了血友病甲的预防、诊断和治疗。 相似文献
76.
77.
DNA quantity can be a hindrance in ecological and evolutionary research programmes due to a range of factors including endangered status of target organisms, available tissue type, and the impact of field conditions on preservation methods. A potential solution to low‐quantity DNA lies in whole genome amplification (WGA) techniques that can substantially increase DNA yield. To date, few studies have rigorously examined sequence bias that might result from WGA and next‐generation sequencing of nonmodel taxa. To address this knowledge deficit, we use multiple displacement amplification (MDA) and double‐digest RAD sequencing on the grey mouse lemur (Microcebus murinus) to quantify bias in genome coverage and SNP calls when compared to raw genomic DNA (gDNA). We focus our efforts in providing baseline estimates of potential bias by following manufacturer's recommendations for starting DNA quantities (>100 ng). Our results are strongly suggestive that MDA enrichment does not introduce systematic bias to genome characterization. SNP calling between samples when genotyping both de‐novo and with a reference genome are highly congruent (>98%) when specifying a minimum threshold of 20X stack depth to call genotypes. Relative genome coverage is also similar between MDA and gDNA, and allelic dropout is not observed. SNP concordance varies based on coverage threshold, with 95% concordance reached at ~12X coverage genotyping de‐novo and ~7X coverage genotyping with the reference genome. These results suggest that MDA may be a suitable solution for next‐generation molecular ecological studies when DNA quantity would otherwise be a limiting factor. 相似文献
78.
Morteza Sheikh-Assadi Azizollah Khandan-Mirkohi Ali Alemardan Eduardo Moreno-Jiménez 《International journal of phytoremediation》2015,17(6):556-562
Heavy metals accumulation in soils poses a potential threat to ecosystems, which, in turn, threat human health through food chains. Therefore, remediating polluted sites is important to environment and humanity. In this investigation, statice (L. sinuatum) was exposed to Cd (0, 15, 30, 60 mg kg?1 soil) or Pb (0, 100, 150, 300 mg kg?1 soil) in a pot experiment to assess its tolerance to each metal and study its phytoaccumulation capability. The benefits of mycorrhization (mixture of Glomus mosseae and G. intraradices) were also studied simultaneously. Single exposure to Cd or Pb reduced the plant growth, but statice was still relatively tolerant to both metals. The plants accumulated both metals in their roots; little was translocated to the shoots. Total Pb and total Cd accumulated by the roots was approximately 2 and 3 times higher in mycorrhizal than non-mycorrhizal plants (49 versus 147 and 595 versus 956 μg plant?1) respectively; however, mycorrhization alleviated metal phytotoxicity. The results suggest that statice is a potential candidate to be used as an ornamental plant in lead and cadmium polluted sites, mainly inoculated with arbuscular mycorrhizae. Besides that, it would be useful as a Pb or Cd controlling agent by means of phytostabilization. 相似文献
79.
简述了工业生物技术的发展背景和意义,分析了基因组学和功能基因组学发展对工业生物技术的推动作用,重点介绍了本期专刊发表的代谢工程、发酵工程以及工业酶与生物催化领域的17篇论文。 相似文献
80.
JiKun Huang JianWei Mi Hai Lin ZiJun Wang RuiJian Chen RuiFa Hu Scott Rozelle Carl Pray 《中国科学:生命科学英文版》2010,53(8):981-991
The objective of this study is to examine whether or not the gains from reduced spraying for bollworms are being sustained
more than one decade after the initial adoption in 2007. Based on farm-level data collected by the authors in 1999–2007 in
16 villages from 4 provinces, this study shows that insecticides applied for controlling bollworms have declined. This analysis
supports Chinese policy makers’ decision to not require refuges of non-Bt cotton fields. It also suggests that past studies
may have underestimated the benefits from adopting Bt technology. 相似文献