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Storage protein profiles in Spanish and runner market type peanuts and potential markers 总被引:1,自引:0,他引:1
Background
Proteomic analysis has proven to be the most powerful method for describing plant species and lines, and for identification of proteins in complex mixtures. The strength of this method resides in high resolving power of two-dimensional electrophoresis (2-DE), coupled with highly sensitive mass spectrometry (MS), and sequence homology search. By using this method, we might find polymorphic markers to differentiate peanut subspecies. 相似文献23.
Oxidative stress and ozone: perception, signalling and response 总被引:5,自引:0,他引:5
MARGARETE BAIER REA KANDLBINDER DORTJE GOLLDACK & KARL-JOSEF DIETZ 《Plant, cell & environment》2005,28(8):1012-1020
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The narrow sheath mutant of maize displays a leaf and plant stature phenotype controlled by the duplicate factor mutations narrow sheath1 and narrow sheath2. Mutant leaves fail to develop a lateral domain that includes the leaf margins. Genetic data are presented to show that the narrow sheath mutations map to duplicated chromosomal regions, reflecting an ancestral duplication of the maize genome. Genetic and cytogenetic evidence indicates that the original mutation at narrow sheath2 is associated with a chromosomal inversion on the long arm of chromosome 4. Meristematic sectors of dual aneuploidy were generated, producing plants genetically mosaic for NARROW SHEATH function. These mosaic plants exhibited characteristic half-plant phenotypes, in which leaves from one side of the plant were of nonmutant morphology and leaves from the opposite side were of narrow sheath mutant phenotype. The data suggest that the narrow sheath duplicate genes may perform ancestrally conserved, redundant functions in the development of a lateral domain in the maize leaf. 相似文献
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WULFILA GRONENBERG C. ROBERTO F. BRANDÃO BODO H. DIETZ & STEFAN JUST 《Physiological Entomology》1998,23(3):227-240
Abstract.Ants of the genus Acanthognathus stalk small insects and catch their prey by a strike with their long, thin mandibles. The mandibles close in less than 2.5 ms and this movement is controlled by a specialized closer muscle. In Acanthognathus , unlike other insects, the mandible closer muscle is subdivided into two distinct parts: as in a catapult, a large slow closer muscle contracts in advance and provides the power for the strike while the mandibles are locked open. When the prey touches specialized trigger hairs, a small fast closer muscle rapidly unlocks the mandibles and thus releases the strike. The fast movement is steadied by large specialized surfaces in the mandible joint and the sensory‐motor reflex is controlled by neurones with particularly large, and thus fast‐conducting, axons. 相似文献
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Vu Dinh THONG Sebastien J. PUECHMAILLE Annette DENZINGER Paul J.J. BATES Christian DIETZ Gabor CSORBA Pipat SOISOOK Emma C. TEELING Sumiko MATSUMURA Neil M. FUREY Hans‐Ulrich SCHNITZLER 《Mammal Review》2012,42(2):166-192
- 1 Hipposideros turpis is traditionally known as a species composed of three subspecies, H. t. turpis, H. t. alongensis and H. t. pendleburyi, distributed disjunctly in south‐west Japan, north‐east Vietnam and south‐west Thailand, respectively. Prior to the present study, the systematic status of forms within the species remained unclear.
- 2 Using morphological (external, bacular, cranial and dental characters), genetic and echolocation data, we demonstrate that turpis, alongensis and pendleburyi represent three distinct species, and that these species are endemic to Japan, Vietnam and Thailand, respectively. They are very distinct genetically and do not even form a monophyletic group.
- 3 We also prove that H. alongensis is composed of two subspecies, H. a. alongensis and H. a. sungi. The latter subspecies is described as new to science. To date, H. a. alongensis appears to be restricted to the Cat Ba Island of Cat Ba National Park, west Ha Long Bay, whereas H. a. sungi ssp. nov. is known from three localities in mainland northeast Vietnam. These two subspecies are distinguished by body size, molecular data and the frequency of the constant‐frequency component of their echolocation signals.
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Plant Molecular Biology - 相似文献
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