PARAVEINAL MESOPHYLL IN CALLIANDRA TWEEDII AND C. EMARGINATA (LEGUMINOSAE; MIMOSOIDEAE)

Antibodies raised against tonoplast intrinsic proteins (TIPs) were used to probe the functional status of the soybean [Glycine max (L.) Merr.] paraveinal mesophyll (PVM) vacuole during changes in nitrogen metabolism within the leaf. Young plants grown under standard conditions had PVM vacuoles characterised by the presence of γ-TIP, which is indicative of a lytic function. When plants were then subjected to shoot tip removal for a period of 15 d, forcing a sink-limited physiological condition, the γ-TIP marker diminished while the δ-TIP marker became present in the PVM vacuole, indicating the conversion of the PVM vacuole to a storage function. When the shoot tips were allowed to regrow, the γ-TIP marker again became dominant demonstrating the reversion of these PVM vacuoles back to a lytic compartment. The changes in TIP markers correlated with the accumulation of vegetative storage proteins and vegetative lipoxygenases, proteins implicated in nitrogen storage and assimilate partitioning. This research suggests that the PVM vacuole is able to undergo dynamic conversion between lytic and storage functions and further implicates this cell layer in assimilate storage and mobilisation in soybeans.

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Paraveinal mesophyll: Review and survey of the subtribeErythrininae (Phaseoleae, Papilionoideae, Leguminosae)

Plant Systematics and Evolution ◽

10.1007/bf00985334 ◽

1995 ◽

Vol 196 (1-2) ◽

pp. 31-62 ◽

Cited By ~ 12

Author(s):

Curt L. Brubaker ◽

Nels R. Lersten

Keyword(s):

Paraveinal Mesophyll

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Soybean vegetative lipoxygenases are not vacuolar storage proteins

Functional Plant Biology ◽

10.1071/fp11047 ◽

2011 ◽

Vol 38 (10) ◽

pp. 778 ◽

Cited By ~ 4

Author(s):

Glenn W. Turner ◽

Howard D. Grimes ◽

B. Markus Lange

Keyword(s):

Storage Proteins ◽

Tissue Level ◽

Protein Bodies ◽

Specific Antibodies ◽

Vegetative Storage Proteins ◽

Paraveinal Mesophyll ◽

Cast Doubt ◽

Sink Limitation ◽

Immuno Cytochemistry

The paraveinal mesophyll (PVM) of soybean is a distinctive uniseriate layer of branched cells situated between the spongy and palisade chlorenchyma of leaves that contains an abundance of putative vegetative storage proteins, Vspα and Vspβ, in its vacuoles. Soybean vegetative lipoxygenases (five isozymes designated as Vlx(A–E)) have been reported to co-localise with Vsp in PVM vacuoles; however, conflicting results regarding the tissue-level and subcellular localisations of specific Vlx isozymes have been reported. We employed immuno-cytochemistry with affinity-purified, isozyme-specific antibodies to reinvestigate the subcellular locations of soybean Vlx isozymes during a sink limitation experiment. VlxB and VlxC were localised to the cytoplasm and nucleoplasm of PVM cells, whereas VlxD was present in the cytoplasm and nucleoplasm of mesophyll chlorenchyma (MC) cells. Label was not associated with storage vacuoles or any evident protein bodies, so our results cast doubt on the hypothesis that Vlx isozymes function as vegetative storage proteins.

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Aspects of leaf anatomy of kudzu (Pueraria lobata, Leguminosae-Faboideae) related to water and energy balance

Pesquisa Agropecuária Brasileira ◽

10.1590/s0100-204x1999000800006 ◽

1999 ◽

Vol 34 (8) ◽

pp. 1361-1365 ◽

Cited By ~ 5

Author(s):

Adaucto Bellarmino de Pereira-Netto ◽

Antonio Carlos Gabriele ◽

Hilton Silveira Pinto

Keyword(s):

Cover Crop ◽

Pueraria Lobata ◽

Spongy Parenchyma ◽

Lower Epidermis ◽

Physiological Plasticity ◽

Paraveinal Mesophyll ◽

Palisade And Spongy Parenchyma ◽

Leaflet Anatomy ◽

Cuticle Thickness ◽

Warm Temperate

Kudzu is a cover crop that has escaped cultivation in some subtropical and warm temperate regions. Kudzu has previously demonstrated broad intraspecific physiological plasticity while colonizing new environments. The objective of this paper was to investigate characteristics of kudzu leaflet anatomy that might contribute to its successful growth in climatically distinct environments, and to escape cultivation as well. Fresh and fixed leaflet strips of field-grown plants were analyzed. The lower epidermis of kudzu showed a higher frequency of stomata (147 ± 19 stomata mm-2) than the upper epidermis (26 ± 17 stomata mm-2). The average number of trichomes per square milimeter was 8 for both the upper and the lower epidermis. The average trichome length was 410 ± 200 mum for the upper epidermis and 460 ± 190 mum for the lower epidermis. Cuticle thickness was not considerably different between lower and upper epidermis. The leaflet blade consisted basically of two layers (upper and lower) of unicellular epidermis, two layers of palisade parenchyma and one layer of spongy parenchyma. One layer of paraveinal mesophyll was found between palisade and spongy parenchyma. In conclusion, leaflets of kudzu present anatomical characteristics that might contribute to the broad physiological plasticity shown by kudzu.

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Specialized cellular arrangements in legume leaves in relation to assimilate transport and compartmentation: comparison of the paraveinal mesophyll

Planta ◽

10.1007/bf00392077 ◽

1983 ◽

Vol 159 (5) ◽

pp. 415-422 ◽

Cited By ~ 23

Author(s):

Vincent R. Franceschi ◽

Robert T. Giaquinta

Keyword(s):

Assimilate Transport ◽

Paraveinal Mesophyll

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Distribution of Metabolites and Enzymes of Nitrogen Metabolism between the Mesophyll and Paraveinal Mesophyll of Non-NodulatedGlycine max

Journal of Experimental Botany ◽

10.1093/jxb/41.7.855 ◽

1990 ◽

Vol 41 (7) ◽

pp. 855-861 ◽

Cited By ~ 3

Author(s):

J. D. EVERARD ◽

M. S B KU ◽

V. R. FRANCESCHI

Keyword(s):

Nitrogen Metabolism ◽

Paraveinal Mesophyll

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Paraveinal mesophyll, and its relationship to vein endings, in Solidago canadensis (Asteraceae)

Canadian Journal of Botany ◽

10.1139/b89-190 ◽

1989 ◽

Vol 67 (5) ◽

pp. 1429-1433 ◽

Cited By ~ 7

Author(s):

Nels R. Lersten ◽

Curt L. Brubaker

Keyword(s):

Sieve Tube ◽

Middle Layer ◽

Bundle Sheath ◽

Vascular Bundles ◽

Solidago Canadensis ◽

Mesophyll Cells ◽

Intermediate Point ◽

Paraveinal Mesophyll ◽

Bundle Sheath Cells ◽

Anatomical Relationship

Paraveinal mesophyll is described from leaves of a common goldenrod species, Solidago canadensis L. (tribe Astereae). This is the first report of paraveinal mesophyll from the Asteraceae. It is a uniseriate middle layer consisting of horizontally lobed cells that form a lacy meshwork between veins. It abuts the tightly cylindrical bundle sheath at the level of the xylem in all vascular bundles. Vein endings, however, differ from other vascular bundles in two ways: sieve tube members may extend to the vein tip, end at an intermediate point, or be absent, and lateral bundle sheath cells distal to the terminal sieve tube member swell greatly or protrude horizontally and interdigitate with adjacent paraveinal mesophyll cells. Cells of both paraveinal mesophyll and bundle sheath have fewer and smaller chloroplasts than other mesophyll cells; the chloroplasts mostly lie adjacent to intercellular spaces. During leaf development, the paraveinal mesophyll layer differentiates before other mesophyll layers. Solidago canadensis paraveinal mesophyll resembles the well-studied paraveinal mesophyll of Glycine max, except for differences in its anatomical relationship to minor veins and vein endings.

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