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91.
W. Tadesse H. J. Reents S. L. K. Hsam F. J. Zeller 《Genetic Resources and Crop Evolution》2011,58(3):339-346
Genetic resistance is the most effective, economical and environment friendly method of managing tan spot of wheat caused
by the ascomycete Pyrenophora tritici-repentis (Died.) Drechs. (anamorph Drechslera tritici-repentis, Died.). This study was carried out to determine the association between seedling and adult plant resistance in winter wheat
cultivars, study the inheritance of tan spot resistance and evaluate wheat germplasm for resistance. A significant positive
correlation was noted between seedling resistance evaluated in greenhouse and adult plant resistance estimated in field conditions.
The absence of segregation into resistant plants in the F1 disomic crosses of the resistant spring and winter wheat cultivars with the susceptible cultivars, and the segregation of
the corresponding F2 crosses into 1 resistant: 3 susceptible ratio indicated that tan spot resistance is controlled by a single recessive gene
which inherits qualitatively. The winter wheat cultivars: Ibis, Heines VII, Albrecht, Solitar, Ohio, Toronto, Yindos, Zenith
and Kronjuwel, and the spelt wheat cultivars: Ceralion, Hercule, and Schwabenkorn showed highly resistant response to both
race 1 and race 5 isolates. We recommend these genotypes to be used for gene deployment in wheat breeding programs. 相似文献
92.
We used long-term in situ (15)N labeling of the soil to investigate the contribution of the two main nitrogen (N) sources (N uptake versus N reserves) to sun shoot growth from bud burst to full leaf expansion in 50-year-old sessile oaks. Recovery of (15)N by growing compartments (leaves, twigs and buds) and presence of (15)N in phloem sap were checked weekly. During the first 2 weeks following bud burst, remobilized N contributed ~90% of total N in growing leaves and twigs. Nitrogen uptake from the soil started concomitantly with N remobilization but contributed only slightly to bud burst. However, the fraction of total N due to N uptake increased markedly once bud burst had occurred, reaching 27% in fully expanded leaves and 18% in developed twigs. In phloem sap, the (15)N label appeared a few days after the beginning of labeling and increased until the end of bud burst, and then decreased at full leaf expansion in June. Of all the shoot compartments, leaves attracted most of the absorbed N, which accounted for 68% of new N in shoots, whereas twigs and new buds accounted for only 28 and 3%, respectively. New N allocated to leaves increased from unfolding to full expansion as total N concentration in the leaves decreased. Our results underline the crucial role played by stored N in rapid leaf growth and in the sustained growth of oak trees. Any factors that reduce N storage in autumn may therefore impair spring shoot growth. 相似文献
93.
Heikenwalder M Zeller N Seeger H Prinz M Klöhn PC Schwarz P Ruddle NH Weissmann C Aguzzi A 《Science (New York, N.Y.)》2005,307(5712):1107-1110
Prions typically accumulate in nervous and lymphoid tissues. Because proinflammatory cytokines and immune cells are required for lymphoid prion replication, we tested whether inflammatory conditions affect prion pathogenesis. We administered prions to mice with five inflammatory diseases of the kidney, pancreas, or liver. In all cases, chronic lymphocytic inflammation enabled prion accumulation in otherwise prion-free organs. Inflammatory foci consistently correlated with lymphotoxin up-regulation and ectopic induction of FDC-M1+ cells expressing the normal cellular prion protein PrPC. By contrast, inflamed organs of mice lacking lymphotoxin-alpha or its receptor did not accumulate the abnormal isoform PrPSc, nor did they display infectivity upon prion inoculation. By expanding the tissue distribution of prions, chronic inflammatory conditions may act as modifiers of natural and iatrogenic prion transmission. 相似文献
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95.
F. M. E. Zeller B. L. Edmunds F. J. Schwarz 《Journal of animal physiology and animal nutrition》2014,98(5):982-990
The objective of this study was to determine the changes to residual plant feeding value of early‐ and late‐maturing maize varieties. The influence of the cell wall carbohydrate composition, in terms of neutral and acid detergent fibre (NDF and ADF) content, NDF and dry matter (DM) degradability, and in vitro organic matter digestibility and gas production on the feeding value of a range of maize genotypes, was measured. The different genotypes were allotted into two maturity groups (MG I – early to mid‐early: S210‐S240; MG II – mid‐late to late: S 250‐S280) and harvested at four different harvest dates (depending on the DM content of the kernels). The maize varieties of MG I had lower NDF and ADF contents and higher ruminal DM degradability, in vitro digestibility and gas production and thus a higher feeding value than MG II at the same stage of physiological maturity. A strong negative relationship between NDF content and the ruminal DM degradability (r = ?0.81) was observed. The data indicate that the early‐maturing varieties permit a larger flexibility in harvesting due to a longer period of starch inclusion into the kernel whilst simultaneously maintaining a good supply of rumen‐available fibre. Conclusively, the higher feeding value of the early‐maturing varieties, based on lower NDF and high DM digestibility, permits more flexibility in the harvesting period over the later‐maturing varieties. 相似文献
96.
Alejandra Badaracco Jelle Matthijnssens Sandra Romero Elisabeth Heylen Mark Zeller Lorena Garaicoechea Marc Van Ranst Viviana Parreño 《Veterinary microbiology》2013,161(3-4):247-254
The wild vicuña (Vicugna vicugna) is one of the four species of native South American camelids (SACs) in addition to the wild guanaco, and their domesticated counterparts, alpaca and llama, respectively. Serological data have indicated the presence of group A rotaviruses (RVA) specific antibodies in all 4 members of the SAC, and so far, RVA has been detected from alpacas, llamas and guanacos. A total of 59 fecal samples from healthy wild newborn and juvenile vicuñas, raised in captivity in Jujuy, Argentina were collected and analyzed by ELISA to detect RVA antigen. Two samples (3%) were found to contain G8 RVA strains and one strain (RVA/Vicuña-wt/ARG/C75/2010/G8P[14]) was selected for further genome analyses, revealing the G8-P[14]-I2-R2-C2-M2-Ax-N2-T6-E3-Hx genotype constellation. Unfortunately, no sequence data could be obtained for NSP1 and NSP5. Except for the E3 NSP4 genotype, this partial genotype constellation is reminiscent to bovine RVA strains and bovine-like RVA strains isolated from sheep, guanaco, antelope and humans. This relationship was confirmed phylogenetically, providing further evidence of the widespread presence of this genotype constellation in animals belonging to the artiodactyls. In particular, a close phylogenetic relationship was found between C75 and guanaco RVA strain RVA/Guanaco-wt/ARG/Chubut/1999/G8P[14] for at least 5 gene segments, suggesting a partial conservation of the genotype constellation of RVA strains infecting different species of SACs, even though nowadays their natural habitats are not overlapping. The further monitoring of the sanitary health of wild newborn and juvenile vicuñas is essential to improve the management practices applied in their sustainable exploitation. 相似文献
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100.
Dauphin G Zientara S Zeller H Murgue B 《Comparative immunology, microbiology and infectious diseases》2004,27(5):343-355
West Nile (WN) virus is a mosquito-borne flavivirus that is native to Africa, Europe, and Western Asia. It mainly circulates among birds, but can infect many species of mammals, as well as amphibians and reptiles. Epidemics can occur in rural as well as urban areas. Transmission of WN virus, sometimes involving significant mortality in humans and horses, has been documented at erratic intervals in many countries, but never in the New World until it appeared in New York City in 1999. During the next four summers it spread with incredible speed to large portions of 46 US states, and to Canada, Mexico, Central America and the Caribbean. In many respects, WN virus is an outstanding example of a zoonotic pathogen that has leaped geographical barriers and can cause severe disease in human and equine. In Europe, in the past two decades there have been a number of significant outbreaks in several countries. However, very little is known of the ecology and natural history of WN virus transmission in Europe and most WN outbreaks in humans and animals remain unpredictable and difficult to control. 相似文献