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- The fast growth of mulberry depends on high water consumption, but considerable variations in drought tolerance exist across different cultivars. Physiological and anatomical mechanisms are important to plant survival under drought. However, few research efforts have been made to reveal the relationships of these two aspects in relation to drought tolerance.
- In this study, growth rates, leaf functional physiology and anatomical characteristics of leaf and xylem of 1‐year‐old saplings of seven mulberry cultivars at a common garden were compared. Their relationships were also explored.
- Growth, leaf physiology and anatomy were significantly different among the tested cultivars. Foliar stable carbon isotope composition (δ13C) was negatively correlated with growth rates, and closely related to several leaf and xylem anatomical traits. Particularly, leaf thickness, predicted hydraulic conductivity and vessel element length jointly contributed 77% of the variability in δ13C. Cultivar Wupu had small stomata, intermediate leaf thickness, the smallest hydraulically weighted vessel diameter and highest vessel number, and higher δ13C; Yunguo1 had high abaxial stomatal density, low specific leaf area, moderate hydraulic conductivity and δ13C; these are beneficial features to reduce leaf water loss and drought‐induced xylem embolism in arid areas. Cultivar Liaolu11 had contrasting physiological and anatomical traits compared with the previous two cultivars, suggesting that it might be sensitive to drought.
- Our findings indicate that growth and δ13C are closely associated with both leaf and xylem anatomical characteristics in mulberry, which provides fundamental information to assist evaluation of drought tolerance in mulberry cultivars and in other woody trees.
63.
Proteolytic Cleavage of Subunits of the Nucleocapsid of the Paramyxovirus Simian Virus 5 总被引:12,自引:9,他引:3 下载免费PDF全文
Walter E. Mountcastle Richard W. Compans Henry Lackland Purnell W. Choppin 《Journal of virology》1974,14(5):1253-1261
The protein subunits of the nucleocapsid of the parainfluenza virus simian virus 5 isolated from infected cells after dispersion with trypsin, chymotrypsin, or ficin are cleaved proteolytically. The molecular weights of the subunits which result from cleavage depend on the enzyme used, but are around 43,000, compared to the native subunit of 61,000. In most instances cleavage of the subunit appears to be due to the protease used to disperse the cell, and follows cell disruption. Nucleocapsids composed of native, uncleaved subunits can frequently be obtained from infected cells dispersed without a proteolytic enzyme; however, cleavage occasionally occurs even under those conditions, indicating that cellular proteases can at times cleave this protein. Nucleocapsids containing uncleaved subunits can be isolated from cells persistently infected with simian virus 5, indicating that persistent infection is not invariably associated with intracellular cleavage of this protein. Nucleocapsids composed of native subunits are hydrophobic, whereas those composed of the cleaved subunit can be dispersed in aqueous solution. It is suggested that the portion of the molecule removed by cleavage may be responsible for a specific interaction during virus assembly between the nucleocapsid and those areas of plasma membrane which contain the non-glycosylated viral membrane protein, which is also hydrophobic. An amino acid analysis of native and cleaved subunits has been done. The portion of the subunit removed by cleavage does not have a high proportion of hydrophobic residues, suggesting that those present are arranged together to form a hydrophobic domain.The N termini of both the native and cleaved subunits are blocked. This suggests that the portion of the molecule which is externally disposed and removed by cleavage contains the C terminus, and the cleaved subunit which reacts with the viral RNA contains the N terminus. 相似文献
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The experiment was made in an attempt to modify the usual relationship in which young trout grow faster than young salmon in streams in which they occur together. A stretch of a trout stream was stocked with advanced salmon eggs, which produced fry earlier than the trout eggs laid naturally. The salmon grew faster than the trout and were longer than the trout at the end of the growing season. The mean length of 77.7 mm attained by the salmon is the largest known size reached by salmon in their first year when feeding on natural food supplies in streams in Scotland. Survival rate from egg planting to production of salmon of this mean length was high. 相似文献
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Henry R. Mainwaring 《Archives of microbiology》1971,75(4):296-303
Summary The cytology of Podospora arizonensis, an apomictic pyrenomycete, has been studied from crozier formation to the first mitotic division in the ascus, using phase contrast light microscopy. Increase in ascus size is accompanied by morphological changes in the chromosomes which are reminiscent of the changes associated with meiosis in normal ascomycetes. The nucleolus is seen to increase in size during the phase of maximal ascus growth, and to decrease thereafter. The significance of these events is discussed. 相似文献
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Henry Souttar 《BMJ (Clinical research ed.)》1951,2(4746):1503-1504