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931.
This study investigates to which extent two-photon excitation (TPE) fluorescence lifetime imaging microscopy can be applied
to study picosecond fluorescence kinetics of individual chloroplasts in leaves. Using femtosecond 860 nm excitation pulses,
fluorescence lifetimes can be measured in leaves of Arabidopsis thaliana and Alocasia wentii under excitation-annihilation free conditions, both for the F
0- and the F
m-state. The corresponding average lifetimes are ~250 ps and ~1.5 ns, respectively, similar to those of isolated chloroplasts.
These values appear to be the same for chloroplasts in the top, middle, and bottom layer of the leaves. With the spatial resolution
of ~500 nm in the focal (xy) plane and 2 μm in the z direction, it appears to be impossible to fully resolve the grana stacks
and stroma lamellae, but variations in the fluorescence lifetimes, and thus of the composition on a pixel-to-pixel base can
be observed. 相似文献
932.
Woody species populating the major Mediterranean ecosystems in the world are characterized by different levels of adaptation
to the seasonal Mediterranean climate conditions. Many species of these ecosystems show wood features that allow high efficiency
of transport when water is available, while maintaining hydraulic safety during drought periods. This study focuses on the
anatomy of juvenile and mature wood of some species representative of continuous sequences of Mediterranean vegetation formations
according to gradients of water availability, from xeric to relatively mesic: Cistus monspeliensis L., Rhamnus alaternus L., Myrtus communis L., Pistacia lentiscus L., Olea europaea L., Quercus ilex L., Fraxinus ornus L. and Ostrya carpinifolia L. Twigwood collected in Southern Italy was anatomically compared with the stemwood of the same species represented in the
reference slide collection of the National Herbarium of the Netherlands (Lw). The “hydraulic distance” between the wood of
main stems and twigs was estimated on the basis of suites of anatomical features related to water efficiency/safety. Although
some attributes (i.e. porosity and type of imperforate tracheary elements) were similar in young twigs and older rings, other
traits (i.e. vessel frequency and size) evidenced the different hydraulic properties of twig and stemwood. The difference
between juvenile and mature structures was large in the species of the mesic end of the gradient while it was relatively small
in those more xeric. This tendency is in agreement with the habit gradient from medium-sized trees to small evergreen/drought
deciduous shrubs according to decreasing water availability in Mediterranean vegetation types. 相似文献
933.
Expression of the stay-green character introgressed into Lolium temulentum Ceres from a senescence mutant of Festuca pratensis 总被引:5,自引:0,他引:5
H. Thomas W. G. Morgan A. M. Thomas H. J. Ougham 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1999,99(1-2):92-99
A mutant allele at the nuclear locus sid confers indefinite greenness on senescing leaves of the pasture grass Festuca pratensis. Via the bridging species Lolium multiflorum and a programme of backcrossing and selfing, the mutant allele (designated sid
y
) was introgressed into Lolium temulentum Ceres. The latter is a fast-growing, annual, inbreeding model grass with many advantages over the slower, perennial, genetically
heterogeneous outbreeder F. pratensis. Analyses of photosynthetic pigments, total leaf proteins and individual plastid polypeptide components in senescing attached
and detached leaves of yy, yY and YY plants confirmed that the stay-green phenotype of yy F. pratensis had been successfully introduced into the L. temulentum background.
Received: 21 September 1998 / Accepted: 19 November 1998 相似文献
934.
The mixosaurid ichthyosaur Contectopalatus from the Middle Triassic of the German Basin 总被引:1,自引:0,他引:1
Michael W. Maisch REAS T. MATZKE 《Lethaia: An International Journal of Palaeontology and Stratigraphy》2000,33(2):71-74
The skull of the mixosaurid species Contectopalatus atavus (Quenstedt, 1851-52) is the most bizarre of any known ichthyosaur. It possesses a very high sagittal crest formed by the nasal, frontal and parietal bones which grows higher during ontogeny. This skull structure - found to a lesser extent in the other mixosaurid genera Mixosaurus and Phalarodon - is a synapomorphy of the family Mixosauridae. It is here interpreted as correlated with a unique arrangement of the jaw adductor musculature among tetrapods, with the internal jaw adductors extending over most of the skull roof up to the external narial opening. This reconstruction would increase the biting force considerably and the hypothesis is supported by peculiarities of the dentition and jaws of Contectopalatus. Contectopalatus probably reached a length of about 5 meters. It is therefore the largest known mixosaurid and one of the largest Triassic ichthyosaurs. The general text-book picture of mixosaurs as small, rather unspecialized, primitive ichthyosaurs is incorrect. Mixosaurs were a highly specialized, uniquely adapted and very diverse ichthyosaur family, some members of which rank among the marine top predators of their time. 相似文献
935.
936.
Brittany Baierlein Alison L. Thurow Harold L. Atwood Robin L. Cooper 《Journal of visualized experiments : JoVE》2011,(47)
The purpose of this report is to help develop an understanding of the effects caused by ion gradients across a biological membrane. Two aspects that influence a cell''s membrane potential and which we address in these experiments are: (1) Ion concentration of K+ on the outside of the membrane, and (2) the permeability of the membrane to specific ions. The crayfish abdominal extensor muscles are in groupings with some being tonic (slow) and others phasic (fast) in their biochemical and physiological phenotypes, as well as in their structure; the motor neurons that innervate these muscles are correspondingly different in functional characteristics. We use these muscles as well as the superficial, tonic abdominal flexor muscle to demonstrate properties in synaptic transmission. In addition, we introduce a sensory-CNS-motor neuron-muscle circuit to demonstrate the effect of cuticular sensory stimulation as well as the influence of neuromodulators on certain aspects of the circuit. With the techniques obtained in this exercise, one can begin to answer many questions remaining in other experimental preparations as well as in physiological applications related to medicine and health. We have demonstrated the usefulness of model invertebrate preparations to address fundamental questions pertinent to all animals. 相似文献
937.
938.
Junzhou Liu Shaozhong Kang William J. Davies Risheng Ding 《Plant, cell & environment》2020,43(3):563-578
Plants can modify xylem anatomy and hydraulic properties to adjust to water status. Elevated [CO2] can increase plant water potential via reduced stomatal conductance and water loss. This raises the question of whether elevated [CO2], which thus improves plant water status, will reduce the impacts of soil water deficit on xylem anatomy and hydraulic properties of plants. To analyse the impacts of water and [CO2] on maize stem xylem anatomy and hydraulic properties, we exposed potted maize plants to varying [CO2] levels (400, 700, 900, and 1,200 ppm) and water levels (full irrigation and deficit irrigation). Results showed that at current [CO2], vessel diameter, vessel roundness, stem cross-section area, specific hydraulic conductivity, and vulnerability to embolism decreased under deficit irrigation; yet, these impacts of deficit irrigation were reduced at elevated [CO2]. Across all treatments, midday stem water potential was tightly correlated with xylem traits and displayed similar responses. A distinct trade-off between efficiency and safety in stem xylem water transportation in response to water deficit was observed at current [CO2] but not observed at elevated [CO2]. The results of this study enhance our knowledge of plant hydraulic acclimation under future climate environments and provide insights into trade-offs in xylem structure and function. 相似文献
939.
Hans ter Steege 《Oecologia》1994,100(4):356-367
Mora excelsa and M. gonggrijpii are well segregated along a soil hydrological gradient. M. excelsa is positively associated with soil hydromorphic characteristics such as gley, mottling and groundwater within 1.20 m, whereas M. gonggrijpii is negatively associated with these characteristics. Growth and mortality of artificially installed seedlings were studied in both species in occasionally flooded forest and dryer uphill forest. In a moderate year (1992, no pronounced flooding, no drought), there was no difference between the two species in growth or mortality in the two forest types. M. gonggrijpii was larger in both forest types. Flooding tolerance of seeds and seedlings were studied under controlled water regimes. Seeds of M. gonggrijpii appeared to be very intolerant to flooding, since germination in this species dropped to 50% after only 11 days of flooding. Seeds of M. excelsa floated and 80% of the seeds were viable after as much as 50 days of flooding. Artificially submerged seeds of the latter species had an intermediate survival response. Flooding in seedlings resulted in cessation of growth in both species. Mortality was nil in most treatments, but all M. gonggrijpii individuals died after a treatment of 8 weeks of continuous flooding. Drought tolerance of seedlings of M. excelsa and M. gonggrijpii was studied in a drying-out experiment. Seedlings of both species of approximately equal size differed widely in a number of characteristics: total leaf area, leaf dry weight, leaf thickness, leaf size and leaf area ratio (LAR) were all larger in M. gonggrijpii, while stomatal density and specific leaf area (SLA) were smaller in this species. Seedlings did not differ in stem hydraulic conductivity. M. excelsa showed lower osmotic potential at full hydration. Turgor potential loss points were not nearly approached in the forest during the middle of the dry season in either species. M. gonggrijpii had much lower stomatal conductance than M. excelsa, due to lower stomatal density. Boundary layer conductance was of the same magnitude as stomatal conductance, especially in the morning. In a drying-out experiment, total plant transpiration was higher in M. gonggrijpii, as the lower conductance observed in this species was compensated for by its larger leaf area. M. gonggrijpii was able to extract water from dryer soils than M. excelsa and may be able to utilize its higher leaf water content under moderate drought in the forest understorey. 相似文献
940.
The Chenopodiaceae genus Salsola contains a large number of species with C4 photosynthesis. Along with derivative genera they have a prominent position among the desert vegetation of Asia and Africa.
About 130 species from Asia and Africa were investigated to determine the occurrence of C3 versus C4 syndrome in leaves and cotyledons, and to study specific anatomical and biochemical features of photosynthesis in both photosynthetic
organs. The species studied belong to all six previously identified sections of the tribe Salsoleae based on morphological
characters. Types of photosynthesis were identified using carbon 13C/12C isotope fractionation. The representatives of all systematic groups were investigated for mesophyll anatomy and biochemical
subtypes by determination of enzyme activity (RUBPC, PEPC, NAD- and NADP-ME and AAT) and primary photosynthetic products.
Two photosynthetic types (C3 and C4) and two biochemical subtypes (NAD- and NADP-ME) were identified in both leaves and cotyledons. Both Kranz and non-Kranz
type anatomy were found in leaves and cotyledons, but cotyledons had more diversity in anatomical structure. Strong relationships
between anatomical types and biochemical subtypes in leaves and cotyledons were shown. We found convincing evidence for a
similar pattern of structural and biochemical features of photosynthesis in leaves and cotyledons within systematic groups,
and evaluated their relevance at the evolutionary level. We identified six groups in tribe Salsoleae with respect to photosynthetic
types and mesophyll structure in leaves and cotyledons. Two separate lineages of biochemical and anatomical evolution within
Salsoleae were demonstrated based on studies of leaves and cotyledons. The sections Caroxylon, Malpighipila, Cardiandra and Belanthera have no C3 species and only the NAD-ME C4 subtype has been found in leaves. We suggest the C4 species in the NADP-ME lineage evolved in Coccosalsola and Salsola sections, and originated in the subsection Arbuscula. Coccosalsola contains many species with C3 and/or C3-C4 intermediate photosynthesis. Within these main evolutionary lineages, species of different taxonomic groups (sections and
subsections) had differences in anatomical or/and biochemical features in leaves and cotyledons. We conclude that structural
and biochemical changes in the photosynthetic apparatus in species of the tribe Salsoleae were a key factor in their evolution
and broad distribution in extreme desert environments.
Received January 25, 2001 Accepted July 17, 2001 相似文献