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Systemically wound-responsive genes in poplar trees encode proteins similar to sweet potato sporamins and legume Kunitz trypsin inhibitors (1990)

Bradshaw, Harvey D. ; Hollick, Jay B. ; Parsons, Thomas J. ; [et al.]

Springer

Plant molecular biology 14 (1990), S. 51-59

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ISSN: 1573-5028

Keywords: cDNA cloning ; genomic cloning ; plant defense ; Populus ; proteinase inhibitor

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract When the lower leaves of hybrid poplar trees are mechanically wounded, several novel mRNAs accumulate in the unwounded upper leaves (Parsons TJ, Bradshaw HD, Gordon MP: Systemic accumulation of specific mRNAs in response to wounding in poplar trees, Proc Natl Acad Sci USA, in press). A partial cDNA clone corresponding to a transcript from the wound-responsive gene designated win 3 (wound-inducible) has been cloned by differential hybridization to 32P-labelled cDNA from the leaves of wounded trees. Northern blots show a large accumulation of win 3 transcripts in the unwounded leaves of wounded trees. Southern blot analysis of poplar DNA suggests that win 3 is a member of a multigene family. The nucleotide sequences of several win 3 cDNA clones have been determined, indicating that at least three win 3 gene family members are transcribed. A genomic clone of a win 3 gene family member has been isolated and a 1.5 kb Hind III fragment containing the predicted protein-coding and 5′ upstream regions has been sequenced. The putative win 3 gene product is similar to the major soluble proteins of sweet potato tubers, sporamin A and sporamin B. Both Win3 and the sporamins share significant amino acid sequence identity with Kunitz-type trypsin inhibitors from legume seeds. The Kunitz family of proteinase inhibitors thus joins three other proteinase inhibitor families which are systemically responsive to wounding.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00015654

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A portable multi-flash kinetic fluorimeter for measurement of donor and acceptor reactions of Photosystem 2 in leaves of intact plants under field conditions (1990)

Kramer, David M. ; Robinson, Howard R. ; Crofts, Antony R.

Springer

Photosynthesis research 26 (1990), S. 181-193

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ISSN: 1573-5079

Keywords: Kinetic Fluorimeter ; PS 2 ; two electron gate ; oxygen evolving complex ; S-states ; intact leaves

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A newly-developed field-portable multi-flash kinetic fluorimeter for measuring the kinetics of the microsecond to millisecond reactions of the oxidizing and reducing sides of photosystem 2 in leaves of intact plants is described and demonstrated. The instrumental technique is a refinement of that employed in the ‘double-flash’ kinetic fluorimeter (Joliot 1974 Biochim Biophys Acta 357: 439–448) where a low-intensity short-duration light pulse is used to measure the fluorescence yield changes following saturating single-turnover light pulses. The present instrument uses a rapid series of short-duration (2 μs) pulses to resolve a complete microsecond to millisecond time-scale kinetic trace of fluorescence yield changes after each actinic flash. Differential optics, using a matrix of optical fibers, allow very high sensitivity (noise levels about 0.05% Fmax) thus eliminating the need for signal averaging, and greatly reducing the intensity of light required to make a measurement. Consequently, the measuring pulses have much less actinic effect and an entire multi-point trace (seven points) excites less than 1% of the reaction centers in a leaf. In addition, bu combining the actinic and measuring pulse light in the optical fiber network, the tail of the actinic flash can be compensated for, allowing measurements of events as rapidly as 20 μs after the actinic flash. This resolution makes practical the routine measurement of the microsecond turnover kinetics of the oxygen evolving complex in leaves of intact plants in the field. The instrument is demonstrated by observing flash number dependency and inhibitor sensitivity of the induction and decay kinetics of flash-induced fluorescence transients in leaves of intact plants. From these traces the period-two oscillations associated with the turnover of the two-electron gate and the period-four oscillations associated with the turnover of the oxygen evolving complex can be observed. Applications of the instrument to extending our knowledge of chloroplast function to the whole plant, the effects on plants of environmental stress, herbicides, etc, and possible applications to screening of mutants are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00033131

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Solar surface velocity fields determined from small magnetic features (1990)

Howard, R. F. ; Harvey, J. W. ; Forgach, S.

Springer

Solar physics 130 (1990), S. 295-311

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ISSN: 1573-093X

Source: Springer Online Journal Archives 1860-2000

Topics: Physics

Notes: Abstract We describe a method for the analysis of magnetic data taken daily at the Vacuum Telescope at Kitt Peak. In this technique, accurate position differences of very small magnetic features on the solar surface outside active regions are determined from one day to the next by a cross-correlation analysis. In order to minimize systematic errors, a number of corrections are applied to the data for effects originating in the instrument and in the Earth's atmosphere. The resulting maps of solar latitude vs central meridian distance are cross-correlated from one day to the next to determine daily motions in longitude and latitude. Some examples of rotation and meridional motion results are presented. For the months of May 1988 and October–November 1987, we find rotation coefficients A = 2.894 ± 0.011, B = - 0.428 ± 0.070, and C = -0.370 ± 0.077 in μrad s−1 from the expansion ω = A + B sin2φ + C sin4φ, where φ is the latitude. The differential rotation curve for this interval is essentially flat within 20 deg of the equator in these intervals. For the same intervals we find a poleward meridional motion a = 16.0 ± 2.8 m sec -1 from the relation v = a sinφ, where v is the line-of-sight velocity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00156795

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