Silke Schulze scite author profile

SummaryA functional screen in Escherichia coli was established to identify potato genes coding for proteins involved in transitory starch degradation. One clone isolated had a sequence very similar to a recently described chloroplast-targeted b-amylase of Arabidopsis. Expression of the gene in E. coli showed that the protein product was a functional b-amylase that could degrade both starch granules and solubilized amylopectin, while import experiments demonstrated that the b-amylase was imported and processed into pea chloroplasts. To study the function of the protein in transitory starch degradation, transgenic potato plants were generated where its activity was reduced using antisense techniques. Analysis of plants reduced in the presence of this b-amylase isoform showed that their leaves had a starch-excess phenotype, indicating a defect in starch degradation. In addition, it was shown that the antisense plants degraded only 8±30% of their total starch, in comparison with 50% in the wild type, over the dark period. This is the ®rst time that a physiological role for a b-amylase in plants has been demonstrated.

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Spatio–temporal frequency domains and their relation to cytochrome oxidase staining in cat visual cortex

Shoham

Hübener

Schulze

et al. 1997

Nature

145

136

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Spatial and temporal frequencies are important attributes of the visual scene. It is a long-standing question whether these attributes are represented in a spatially organized way in cat primary visual cortex. Using optical imaging of intrinsic signals, we show here that grating stimuli of different spatial frequencies drifting at various speeds produce distinct activity patterns. Rather than observing a map of continuously changing spatial frequency preference across the cortical surface, we found only two distinct sets of domains, one preferring low spatial frequency and high speed, and the other high spatial frequency and low speed. We compared the arrangement of these spatio-temporal frequency domains with the cytochrome oxidase staining pattern, which, based on work in primate striate cortex, is thought to reflect the partition of the visual cortex into different processing streams. We found that the cytochrome oxidase blobs in cat striate cortex coincide with domains engaged in the processing of low spatial and high temporal frequency contents of the visual scene. Together with other recent results, our data suggest that spatiotemporal frequency domains are a manifestation of parallel streams in cat visual cortex, with distinct patterns of thalamic inputs and extrastriate projections.

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LOST MERISTEMS genes regulate cell differentiation of central zone descendants in Arabidopsis shoot meristems

et al. 2010

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SUMMARYMeristems of seed plants continuously produce new cells for incorporation into maturing tissues. A tightly controlled balance between cell proliferation in the center and cell differentiation at the periphery of the shoot meristem maintains its integrity. Here, we describe the role of three GRAS genes, named LOST MERISTEMS genes, in shoot apical meristem maintenance and axillary meristem formation. Under short photoperiods, the lom1 lom2 and lom1 lom2 lom3 mutants have arrested meristems characterized by an over-proliferation of meristematic cells and loss of polar organization. They also show early arrest of axillary meristem development and formation of ectopic meristematic cell clusters within the stem. LOM1 and LOM2 transcripts accumulate in the peripheral and basal zones of the SAM and in vascular strands. We show that LOM1 and LOM2 promote cell differentiation at the periphery of shoot meristems and help to maintain their polar organization.

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Identification of an Arabidopsis inorganic pyrophosphatase capable of being imported into chloroplasts

Schulze

Mant²,

Koßmann

et al. 2004

FEBS Letters

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An Arabidopsis cDNA coding for a previously uncharacterized isoform of inorganic pyrophosphatase was isolated. It was used to complement an E. coli mutant, demonstrating that it coded for an active enzyme. MgCl 2 was necessary for the protein's activity, whilst NaF inhibited it. The K m for pyrophosphate and the pH optimum of the protein was determined. The gene coding for this protein was expressed in all tissues, and its expression in rosette leaves was induced by incubation on metabolizable sugars. In vitro import experiments demonstrated that the protein could be imported into chloro-plasts and localized to the stromal compartment.

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Silke Schulze

Downregulation of a chloroplast‐targeted β‐amylase leads to a starch‐excess phenotype in leaves

Spatio–temporal frequency domains and their relation to cytochrome oxidase staining in cat visual cortex

LOST MERISTEMS genes regulate cell differentiation of central zone descendants in Arabidopsis shoot meristems

Identification of an Arabidopsis inorganic pyrophosphatase capable of being imported into chloroplasts

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