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Australia’s gene technology regulatory scheme (GT Scheme) regulates activities with genetically modified organisms (GMOs, organisms modified by gene technology), including environmental releases. The scope of regulation, i.e. what organisms are and are not regulated, is set by the Gene Technology Act 2000 (GT Act) and GT Regulations 2001 (GT Regulations). The GT Act gives broad, overarching definitions of ‘gene technology’ and ‘GMO’ but also provides for exclusions and inclusions in the GT Regulations. Whether organisms developed with genome editing techniques are, or should be, regulated under countries’ national GMO laws is the subject of debate globally. These issues are also under active consideration in Australia. A technical review of the GT Regulations was initiated in 2016 to clarify the regulatory status of genome editing. Proposed draft amendments are structured around whether the process involves introduction of a nucleic acid template. If agreed, amendments would exclude from regulation organisms produced using site directed nuclease (SDN) 1 techniques while organisms produced using oligonucleotide mutagenesis, SDN-2 or SDN-3 would continue to be regulated as GMOs. The review of the GT Regulations is still ongoing and no legislative changes have been made to the GT Regulations. A broader policy review of the GT Scheme was undertaken in 2017–2018 and as a result further work will be undertaken on the scope and definitions of the GT Act in light of ongoing developments.
相似文献33.
Aerobic physiology of redox-engineered Saccharomyces cerevisiae strains modified in the ammonium assimilation for increased NADPH availability 总被引:1,自引:0,他引:1
Recombinant strains altered in the ammonium assimilation pathways were constructed with the purpose of increasing NADPH availability. The NADPH-dependent glutamate dehydrogenase encoded by GDH1, which accounts for a major fraction of the NADPH consumption during growth on ammonium, was deleted, and alternative pathways for ammonium assimilation were overexpressed: GDH2 (NADH-consuming) or GLN1 and GLT1 (the GS-GOGAT system). The flux through the pentose phosphate pathway during aerobic growth on glucose decreased to about half that of the reference strain Saccharomyces cerevisiae CEN.PK113-7D, indicating a major redox alteration in the strains. The basic growth characteristics of the recombinant strains were not affected to a great extent, but the dilution rate at which the onset of aerobic fermentation occurred decreased, suggesting a relation between the onset of the Crabtree effect and the flux through the Embden-Meyerhof-Parnas pathway downstream of glucose 6-phosphate. No redox effect was observed in a strain containing a deletion of GLR1, encoding glutathione reductase, an enzyme that is NADPH-consuming. 相似文献
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Carol HY Wu Julie YH Chan Jimmy Li-Jer Chou Samuel HH Chan Alice YW Chang 《Journal of biomedical science》2012,19(1):48
Background
Whereas brain death is a vitally important clinical phenomenon, our contemporary understanding on its underlying cellular mechanisms remains elusive. This study evaluated whether the ubiquitin-proteasome system (UPS) in the rostral ventrolateral medulla (RVLM), a neural substrate that our laboratory identified previously to be intimately related to brain death, is engaged in this fatal process.Methods
We performed proteomics, Western Blot, real-time PCR, ELISA and pharmacological experiments in conjunction with a clinically relevant experimental endotoxemia model of brain death based on intravenous administration of Escherichia coli lipopolysaccharide in adult male Sprague–Dawley rats.Results
Proteomics, Western blot and enzyme activity analyses demonstrated that polyubiquitination was preserved and de-ubiquitination by ubiquitin C-terminal hydrolase isozyme-L1 (UCH-L1) was sustained, alongside increased monoubiquitin availability or proteasome activity in RVLM over the course of experimental endotoxemia. However, real-time PCR revealed no significant alteration in proteasome subunit alpha type-1, ubiquitin or UCH-L1 at mRNA level. Functionally, whereas microinjection into the bilateral RVLM of proteasome inhibitors (lactacystin or proteasome inhibitor II) potentiated survival, an inhibitor of ubiquitin-recycling (ubiquitin aldehyde) or an UCH-L1 inhibitor exacerbated mortality.Conclusions
We proposed previously that the progression towards brain death entails a tug-of-war between pro-death and pro-life programs in RVLM. It is conceivable that ubiquitination or de-ubiquitination in RVLM participate in brain death by regulating the degradation of the proteins involved in those programs. 相似文献35.
Morten HH Nørholm 《BMC biotechnology》2010,10(1):21
Background
The combined use of restriction enzymes with PCR has revolutionized molecular cloning, but is inherently restricted by the content of the manipulated DNA sequences. Uracil-excision based cloning is ligase and sequence independent and allows seamless fusion of multiple DNA sequences in simple one-tube reactions, with higher accuracy than overlapping PCR. 相似文献36.
Background
As the origin of a life-and-death signal detected from systemic arterial pressure, which sequentially increases (pro-life) and decreases (pro-death) to reflect progressive dysfunction of central cardiovascular regulation during the advancement towards brain stem death in critically ill patients, the rostral ventrolateral medulla (RVLM) is a suitable neural substrate for mechanistic delineation of this fatal phenomenon. The present study assessed the hypothesis that extracellular signal-regulated kinase 1/2 (ERK1/2), a member of the mitogen-activated protein kinases (MAPKs) that is important for cell survival and is activated specifically by MAPK kinase 1/2 (MEK1/2), plays a pro-life role in RVLM during brain stem death. We further delineated the participation of MAPK signal-interacting kinase (MNK), a novel substrate of ERK in this process. 相似文献37.
The new species Nonea pisidica (Boraginaceae-Boragineae) is described based on two collections by the authors from the region of Lake Burdur in southwest Anatolia, Turkey. It shows a combination of morphological characteristics concerning habit, flower, and fruit that distinguishes it from N. caspica and N. pallens, the two more similar taxa in Nonea sect. Nonea. Karyological analyses corroborate the separation of the three species, which have different chromosome complements and even base numbers. N. pisidica is characterised by 2n = 30, a complement previously unknown for west Asiatic species of Nonea. The dibasic haploid number x = 15 may have originated through amphidiploid hybridisation between two annual, diploid taxa with x = 7 and x = 8, such as N. lutea and N. caspica. The relationships of the new species were further analysed using trnLUAA sequences of the chloroplast genome, which were obtained for 16 selected species of Nonea. The resulting phylogeny confirms that it is related to N. caspica and N. lutea, but not to N. pallens, in spite of morphological resemblance. Lack of relationship with the south Mediterranean N. vesicaria, the only other species of Nonea known to have 2n = 30, suggests that amphidiploidy may have played an important role in speciation processes through recurrent and polytopical occurrence. 相似文献
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Ramūnas Digaitis Emil Engelund Thybring Lisbeth Garbrecht Thygesen 《Biotechnology progress》2021,37(1):e3083
Lignocellulose breakdown in biorefineries is facilitated by enzymes and physical forces. Enzymes degrade and solubilize accessible lignocellulosic polymers, primarily on fiber surfaces, and make fibers physically weaker. Meanwhile physical forces acting during mechanical agitation induce tearing and cause rupture and attrition of the fibers, leading to liquefaction, that is, a less viscous hydrolysate that can be further processed in industrial settings. This study aims at understanding how mechanical agitation during enzymatic saccharification can be used to promote fiber attrition. The effects of reaction conditions, such as substrate and enzyme concentration on fiber attrition rate and hydrolysis yield were investigated. To gain insight into the fiber attrition mechanism, enzymatic hydrolysis was compared to hydrolysis by use of hydrochloric acid. Results show that fiber attrition depends on several factors concerning reactor design and operation including drum diameter, rotational speed, mixing schedule, and concentrations of fibers and enzymes. Surprisingly, different fiber attrition patterns during enzymatic and acid hydrolysis were found for similar mixing schedules. Specifically, for tumbling mixing, slow continuous mixing appears to function better than faster, intermittent mixing even for the same total number of drum revolutions. The findings indicate that reactor design and operation as well as hydrolysis conditions are key to process optimization and that detailed insights are needed to obtain fast liquefaction without sacrificing saccharification yields. 相似文献
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Background
Serial Analysis of Gene Expressions (SAGE) produces gene expression measurements on a discrete scale, due to the finite number of molecules in the sample. This means that part of the variance in SAGE data should be understood as the sampling error in a binomial or Poisson distribution, whereas other variance sources, in particular biological variance, should be modeled using a continuous distribution function, i.e. a prior on the intensity of the Poisson distribution. One challenge is that such a model predicts a large number of genes with zero counts, which cannot be observed. 相似文献40.