HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues

Wei W, Alexandersson E, Golldack D, Miller AJ, Kjellborn PO, Fricke W (2007)
PLANT AND CELL PHYSIOLOGY 48(8): 1132-1147.

Journal Article | Published | English

No fulltext has been uploaded

Author
; ; ; ; ;
Abstract
The aim of the present study was to identify water channel(s) which are expressed specifically in the growth zone of grass leaves and may facilitate growth-associated water uptake into cells. Previously, a gene had been described (HvEmip) which encodes a membrane intrinsic protein (MIP) and which is particularly expressed in the base I cm of barley primary leaves. The functionality of the encoding protein was not known. In the present study on leaf 3 of barley (Hordeum vulgare L.), a clone was isolated, termed HvPIP1;6, which has 99% amino acid sequence identity to HvEmip and belongs to the family of plasma membrane intrinsic proteins (PIPs). Expression of HvPIP1;6 was highest in the elongation zone, where it accounted for > 85% of expression of known barley PIP1s. Within the elongation zone, faster grower regions showed higher expression than slower growing regions. Expression of HvPIP1;6 was confined to the epidermis, with some expression in neighboring mesophyll cells. Expression of HvPIP1;6 in Xenopus laevis oocytes increased osmotic water permeability 4- to 6-fold. Water channel activity was inhibited by pre-incubation of oocytes with 50 mu M HgCl2 and increased following incubation with the phosphatase inhibitor okadaic acid or the plant hormone ABA. Plasma membrane preparations were analyzed by Western blots using an antibody that recognized PIP1s. Levels of PIP1s were highest in the elongation and adjacent non-elongation zone. The developmental expression profile of HvPIP2;1, the only known barley water channel belonging to the PIP2 subgroup, was opposite to that of HvPIP1;6.
Publishing Year
ISSN
eISSN
PUB-ID

Cite this

Wei W, Alexandersson E, Golldack D, Miller AJ, Kjellborn PO, Fricke W. HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues. PLANT AND CELL PHYSIOLOGY. 2007;48(8):1132-1147.
Wei, W., Alexandersson, E., Golldack, D., Miller, A. J., Kjellborn, P. O., & Fricke, W. (2007). HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues. PLANT AND CELL PHYSIOLOGY, 48(8), 1132-1147.
Wei, W., Alexandersson, E., Golldack, D., Miller, A. J., Kjellborn, P. O., and Fricke, W. (2007). HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues. PLANT AND CELL PHYSIOLOGY 48, 1132-1147.
Wei, W., et al., 2007. HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues. PLANT AND CELL PHYSIOLOGY, 48(8), p 1132-1147.
W. Wei, et al., “HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues”, PLANT AND CELL PHYSIOLOGY, vol. 48, 2007, pp. 1132-1147.
Wei, W., Alexandersson, E., Golldack, D., Miller, A.J., Kjellborn, P.O., Fricke, W.: HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues. PLANT AND CELL PHYSIOLOGY. 48, 1132-1147 (2007).
Wei, Wenxue, Alexandersson, Erik, Golldack, Dortje, Miller, Anthony John, Kjellborn, Per Ola, and Fricke, Wieland. “HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues”. PLANT AND CELL PHYSIOLOGY 48.8 (2007): 1132-1147.
This data publication is cited in the following publications:
This publication cites the following data publications:

18 Citations in Europe PMC

Data provided by Europe PubMed Central.

Expression and characterization of plasma membrane aquaporins in stomatal complexes of Zea mays.
Heinen RB, Bienert GP, Cohen D, Chevalier AS, Uehlein N, Hachez C, Kaldenhoff R, Le Thiec D, Chaumont F., Plant Mol. Biol. 86(3), 2014
PMID: 25082269
Heteromerization of PIP aquaporins affects their intrinsic permeability.
Yaneff A, Sigaut L, Marquez M, Alleva K, Pietrasanta LI, Amodeo G., Proc. Natl. Acad. Sci. U.S.A. 111(1), 2014
PMID: 24367080
Maize plasma membrane aquaporin ZmPIP2;5, but not ZmPIP1;2, facilitates transmembrane diffusion of hydrogen peroxide.
Bienert GP, Heinen RB, Berny MC, Chaumont F., Biochim. Biophys. Acta 1838(1 Pt B), 2014
PMID: 23994602
Regulation of leaf hydraulics: from molecular to whole plant levels.
Prado K, Maurel C., Front Plant Sci 4(), 2013
PMID: 23874349
Developmental pattern of aquaporin expression in barley (Hordeum vulgare L.) leaves.
Besse M, Knipfer T, Miller AJ, Verdeil JL, Jahn TP, Fricke W., J. Exp. Bot. 62(12), 2011
PMID: 21737414
Calcium delivery and storage in plant leaves: exploring the link with water flow.
Gilliham M, Dayod M, Hocking BJ, Xu B, Conn SJ, Kaiser BN, Leigh RA, Tyerman SD., J. Exp. Bot. 62(7), 2011
PMID: 21511913
Aquaporin-facilitated water uptake in barley (Hordeum vulgare L.) roots.
Knipfer T, Besse M, Verdeil JL, Fricke W., J. Exp. Bot. 62(12), 2011
PMID: 21441404
Mechanisms of water transport mediated by PIP aquaporins and their regulation via phosphorylation events under salinity stress in barley roots.
Horie T, Kaneko T, Sugimoto G, Sasano S, Panda SK, Shibasaka M, Katsuhara M., Plant Cell Physiol. 52(4), 2011
PMID: 21441236
Identification and differential induction of the expression of aquaporins by salinity in broccoli plants.
Muries B, Faize M, Carvajal M, Martinez-Ballesta Mdel C., Mol Biosyst 7(4), 2011
PMID: 21321750
Role of reactive oxygen species-generating enzymes and hydrogen peroxide during cadmium, mercury and osmotic stresses in barley root tip.
Tamas L, Mistrik I, Huttova J, Haluskova L, Valentovicova K, Zelinova V., Planta 231(2), 2010
PMID: 19898864
Heterelogous expression of plant genes.
Yesilirmak F, Sayers Z., Int J Plant Genomics 2009(), 2009
PMID: 19672459
Role of aquaporins in leaf physiology.
Heinen RB, Ye Q, Chaumont F., J. Exp. Bot. 60(11), 2009
PMID: 19542196
Leaf expansion in grasses under salt stress.
Taleisnik E, Rodriguez AA, Bustos D, Erdei L, Ortega L, Senn ME., J. Plant Physiol. 166(11), 2009
PMID: 19467732
Changes in aquaporin gene expression and magnetic resonance imaging of water status in peach tree flower buds during dormancy
Yooyongwech S, Horigane AK, Yoshida M, Yamaguchi M, Sekozawa Y, Sugaya S, Gemma H., Physiol Plant 134(3), 2008
PMID: IND44111160
The expression pattern of plasma membrane aquaporins in maize leaf highlights their role in hydraulic regulation.
Hachez C, Heinen RB, Draye X, Chaumont F., Plant Mol. Biol. 68(4-5), 2008
PMID: 18622732
Changes in aquaporin gene expression and magnetic resonance imaging of water status in peach tree flower buds during dormancy.
Yooyongwech S, Horigane AK, Yoshida M, Yamaguchi M, Sekozawa Y, Sugaya S, Gemma H., Physiol Plant 134(3), 2008
PMID: 18513373

71 References

Data provided by Europe PubMed Central.

Molecular physiology of aquaporins in plants.
Maurel C, Javot H, Lauvergeat V, Gerbeau P, Tournaire C, Santoni V, Heyes J., Int. Rev. Cytol. 215(), 2002
PMID: 11952226
Overexpression of the barley aquaporin HvPIP2;1 increases internal CO(2) conductance and CO(2) assimilation in the leaves of transgenic rice plants.
Hanba YT, Shibasaka M, Hayashi Y, Hayakawa T, Kasamo K, Terashima I, Katsuhara M., Plant Cell Physiol. 45(5), 2004
PMID: 15169933
Isolation and characterisation of a class of carbohydrate oxidases from higher plants, with a role in active defence.
Custers JH, Harrison SJ, Sela-Buurlage MB, van Deventer E, Lageweg W, Howe PW, van der Meijs PJ, Ponstein AS, Simons BH, Melchers LS, Stuiver MH., Plant J. 39(2), 2004
PMID: 15225281
Loss of TIP1;1 aquaporin in Arabidopsis leads to cell and plant death.
Ma S, Quist TM, Ulanov A, Joly R, Bohnert HJ., Plant J. 40(6), 2004
PMID: 15584951
Tonoplast intrinsic proteins AtTIP2;1 and AtTIP2;3 facilitate NH3 transport into the vacuole.
Loque D, Ludewig U, Yuan L, von Wiren N., Plant Physiol. 137(2), 2005
PMID: 15665250
Identification of 33 rice aquaporin genes and analysis of their expression and function.
Sakurai J, Ishikawa F, Yamaguchi T, Uemura M, Maeshima M., Plant Cell Physiol. 46(9), 2005
PMID: 16033806
Regulation of plant aquaporin activity.
Chaumont F, Moshelion M, Daniels MJ., Biol. Cell 97(10), 2005
PMID: 16171457
Differential responses of maize MIP genes to salt stress and ABA.
Zhu C, Schraut D, Hartung W, Schaffner AR., J. Exp. Bot. 56(421), 2005
PMID: 16216844
The short-term growth response to salt of the developing barley leaf.
Fricke W, Akhiyarova G, Wei W, Alexandersson E, Miller A, Kjellbom PO, Richardson A, Wojciechowski T, Schreiber L, Veselov D, Kudoyarova G, Volkov V., J. Exp. Bot. 57(5), 2006
PMID: 16513814
A silicon transporter in rice.
Ma JF, Tamai K, Yamaji N, Mitani N, Konishi S, Katsuhara M, Ishiguro M, Murata Y, Yano M., Nature 440(7084), 2006
PMID: 16572174
Preparation and polypeptide composition of chlorophyll-free plasma membranes from leaves of light-grown spinach and barley
Kjellbom, Physiologia Plantarum 62(4), 1984
IS ABSCISIC ACID A UNIVERSALLY ACTIVE CALCIUM AGONIST?
HUDDART, New Phytologist 104(2), 1986
Difference in Selenite Absorption Between High- and Low-Selenium Rice Cultivars and its Mechanism
Zhang, Plant and Soil 282(1-2), 2006
Specific aquaporins facilitate the diffusion of hydrogen peroxide across membranes.
Bienert GP, Moller AL, Kristiansen KA, Schulz A, Moller IM, Schjoerring JK, Jahn TP., J. Biol. Chem. 282(2), 2007
PMID: 17105724
Water permeability differs between growing and non-growing barley leaf tissues.
Volkov V, Hachez C, Moshelion M, Draye X, Chaumont F, Fricke W., J. Exp. Bot. 58(3), 2007
PMID: 17122408
Water channels in plants: do basic concepts of water transport change?
Steudle, Journal of Experimental Botany 46(9), 1995
Molecular mechanisms of water uptake and transport in plant roots: research progress with water channel aquaporins
Katsuhara, Plant Root 1(), 2007

Export

0 Marked Publications

Open Data PUB

Web of Science

View record in Web of Science®

Sources

PMID: 17602190
PubMed | Europe PMC

Search this title in

Google Scholar