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71.
Kuvalekar Aniket Pawar Pankaj Khare Ankita Gandhe Kanchanganga Harsulkar Abhay 《Plant Cell, Tissue and Organ Culture》2008,94(1):101-104
Ravenelia esculenta Naras. and Thirum. is a rust, pathogenic to Acacia eburnea Willd. The infection leads to hypertrophy changing the morphology with bizarre shapes of plant organs. Healthy and infected
tissues were subjected to extraction of IAA and indole derivatives and were estimated by spectrophotometric methods. The hypertrophy
produced was presumed to be due to increase in the indole-3-acetic acid (IAA) content in the infected tissue, however, the
amount of IAA in infected tissues decreased with the progression of disease. Concomitantly, the infected tissue showed the
presence of a novel, slow migrating, indole derivative on TLC. Cultured shoot tips of Withania somnifera were dosed with the methanolic extract of the infected hypertrophied tissue (MEHT) (0.25, 0.5, 0.75, 1.00 and 1.25 mg/l).
The stimulation in shoot growth along with profuse rooting was observed in a dose dependent manner with maximum at 1.00 and
1.25 mg/l concentration. 相似文献
72.
Mengjiao Zhu Lijie Han Ya Lv Yishan Liu Pan Li Haichun Jing Hongwei Cai 《植物学报(英文版)》2018,60(10):938-955
Tillering contributes to grain yield and plant architecture and therefore is an agronomically important trait in sorghum (Sorghum bicolor). Here, we identified and functionally characterized a mutant of the Non‐dormant Axillary Bud 1 (NAB1) gene from an ethyl methanesulfonate‐mutagenized sorghum population. The nab1 mutants have increased tillering and reduced plant height. Map‐based cloning revealed that NAB1 encodes a carotenoid‐cleavage dioxygenase 7 (CCD7) orthologous to rice (Oryza sativa) HIGH‐TILLERING DWARF1/DWARF17 and Arabidopsis thaliana MORE AXILLARY BRANCHING 3. NAB1 is primarily expressed in axillary nodes and tiller bases and NAB1 localizes to chloroplasts. The nab1 mutation causes outgrowth of basal axillary buds; removing these non‐dormant basal axillary buds restored the wild‐type phenotype. The tillering of nab1 plants was completely suppressed by exogenous application of the synthetic strigolactone analog GR24. Moreover, the nab1 plants had no detectable strigolactones and displayed stronger polar auxin transport than wild‐type plants. Finally, RNA‐seq showed that the expression of genes involved in multiple processes, including auxin‐related genes, was significantly altered in nab1. These results suggest that NAB1 functions in strigolactone biosynthesis and the regulation of shoot branching via an interaction with auxin transport. 相似文献
73.
Spatio-temporal tumour model for analysis and mechanism of action of intracellular drug accumulation
We have developed a one-dimensional tumour simulator to describe the biodistribution of chemotherapeutic drugs to a tumoral
lesion and the tumour cell’s response to therapy. A three-compartment model is used for drug dynamics within the tumour. The
first compartment represents the extracellular space in which cells move, the second corresponds to the intracellular fluid
space (including cell membrane) which is in direct equilibrium with the extracellular space, and the third is a non-exchangeable
compartment that represents sequestered drug which is trapped in the nucleus to damage the cellular DNA, directly triggering
cell death. Analytical and numerical techniques (Finite Element Method) are used to describe the tumour’s response to therapy
and the effect of parameter variation on the drug concentration profiles in the three compartments. 相似文献
74.
Diversity of halophilic microorganisms: Environments,phylogeny, physiology,and applications 总被引:13,自引:0,他引:13
Oren A 《Journal of industrial microbiology & biotechnology》2002,28(1):56-63
The phylogenetic diversity of microorganisms living at high salt concentrations is surprising. Halophiles are found in each
of the three domains: Archaea, Bacteria, and Eucarya. The metabolic diversity of halophiles is great as well: they include
oxygenic and anoxygenic phototrophs, aerobic heterotrophs, fermenters, denitrifiers, sulfate reducers, and methanogens. The
diversity of metabolic types encountered decreases with salinity. The upper salinity limit at which each dissimilatory process
takes place is correlated with the amount of energy generated and the energetic cost of osmotic adaptation. Our understanding
of the biodiversity in salt-saturated environments has increased greatly in recent years. Using a combination of culture techniques,
molecular biological methods, and chemotaxonomic studies, we have obtained information on the nature of the halophilic Archaea
as well as the halophilic Bacteria that inhabit saltern crystallizer ponds. Several halophilic microorganisms are being exploited
in biotechnology. In some cases, such as the production of ectoine, the product is directly related to the halophilic behavior
of the producing microorganism. In other cases, such as the extraction of β-carotene from Dunaliella or the potential use of Haloferax species for the production of poly-β-hydroxyalkanoate or extracellular polysaccharides, similar products can be obtained
from non-halophiles, but halophilic microorganisms may present advantages over the use of non-halophilic counterparts. Journal of Industrial Microbiology & Biotechnology (2002) 28, 56–63 DOI: 10.1038/sj/jim/7000176
Received 20 May 2001/ Accepted in revised form 20 June 2001 相似文献
75.
从皖南尖吻蝮蛇(Agkistrodonacutus)毒液中经DEAE-Sepharose和SephacrylS-200两步凝胶柱层析首次纯化出一种中分子量出血毒素(简称AaHⅣ).经SDS-PAGE和等电聚焦凝胶电泳测定其分子量为44kD,等电点为pH5.0.从500mg粗毒中可获得20mgAaHⅣ纯品.AaHⅣ有较强的出血活性,最小出血剂量(MHD)为0.4μg. 相似文献
76.
Chloroplasts are believed to be descendants of ancestral cyanobacteria that had peptidoglycan layer between the outer and the inner membranes. Historically, the glaucophyte Cyanophora paradoxa and the rhizopod Paulinella chromatophora were believed to harbor symbiotic cyanobacteria having peptidoglycan, which were conventionally named “cyanelles”. In addition, the complete set of genes involved in the synthesis of peptidoglycan has been found in the moss Physcomitrella patens and some plants and algae. The presence of peptidoglycan-like structures was demonstrated by a new metabolic labeling technique in P. patens. However, many green algae and all known red algae lack peptidoglycan-related genes. That is the reason why we questioned the origin of peptidoglycan-synthesizing enzymes in the chloroplasts of the green algae and plants. We performed phylogenetic analysis of ten enzymes involved in the synthesis of peptidoglycan exploiting the Gclust homolog clusters and additional genomic data. As expected, all the identified genes encoded in the chromatophore genome of P. chromatophora were closely related to cyanobacterial homologs. In the green algae and plants, only two genes, murA and mraY, were found to be closely related to cyanobacterial homologs. The origins of all other genes were diverse. Unfortunately, the origins of C. paradoxa genes were not clearly determined because of incompleteness of published genomic data. We discuss on the probable evolutionary scenarios to explain the mostly non-cyanobacterial origins of the biosynthetic enzymes of chloroplast peptidoglycan: A plausible one includes extensive multiple horizontal gene transfers during the early evolution of Viridiplantae. 相似文献
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