Peer-reviewed Publications (plant science)
(1) Buchala, A.J. & Wilkie K.C.B. (1970): Non-endospermic -glucans
from cereals. Naturwissenschaften, 57: 496.
(2) Buchala A.J., Fraser C.G. & Wilkie K.C.B. (1971): Quantitative
studies on the polysaccharides in the non-endospermic tissues of the
oat plant in relation to growth. Phytochemistry, 10: 1285-1291.
(3) Buchala A.J. & Wilkie K.C.B. (1971): The ratio of (13) to
(14) glucosidic linkages in the non-endospermic hemicellulosic
-glucans from oat plant (Avena sativa) tissues at different stages of
maturity. Phytochemistry, 10: 2287-2291.
(4) Buchala A.J., Fraser C.G. & Wilkie K.C.B. (1972): Extraction of
hemicellulose from oat tissue during the process of delignification.
Phytochemistry, 11: 1249-1254.
(5) Buchala A.J., Fraser C.G. & Wilkie K.C.B. (1972): An acidic
galactoarabinoxylan from the stem of Avena sativa. Phytochemistry,
11: 2803-2814.
(6) Buchala A.J. & Meier H. (1972): Hemicelluloses from the stalk of
Cyperus papyrus. Phytochemistry, 11: 3275-3278.
(7) Buchala A.J. & Wilkie K.C.B. (1973): Total hemicelluloses from
wheat plants at different stages of growth. Phytochemistry, 12: 499505.
(8) Buchala, A.J. & Wilkie K.C.B. (1973): Uronic acid residues in the
total hemicelluloses of oats. Phytochemistry, 12: 655-659.
(9) Buchala A.J. & Meier H. (1973): A hemicellulosic -glucan from
maize stem. Carbohydrate Research, 26: 421-425.
(10) Buchala A.J. & Meier H. (1973): -Glucanases and non-cellulosic
-glucans in the developing oat plant. Planta, 111: 245-252.
(11) Buchala A.J. (1973): An arabino(4-O-methylglucurono)xylan from
the leaves of of Hordeum vulgare. Phytochemistry, 12: 1373-1376.
(12) Buchala A.J. & Meier H. (1973): A galactoglucomannan from the
leaf and stem tissue of red clover (Trifolium pratense).
Carbohydrate Research, 31: 87-89.
(13) Buchala A.J., Franz G. & Meier H. (1974): A glucomanan from the
tubers of Orchis morio. Phytochemistry, 13: 163-166.
(14) Buchala A.J. & Wilkie K.C.B. (1974): Total hemicelluloses from
Hordeum vulgare plants at different stages of maturity.
Phytochemistry, 13: 1347-1351.
(15) Buchala A.J. & Franz G. (1974): A hemicellulosic -glucan from
the hypocotyls of Phaseolus aureus. Phytochemistry, 13: 18871889.
(16) Buchala A.J. (1974): Xylans from the tropical grass Panicum
maximum. Phytochemistry, 13: 2185-2188.
(17) Buchala A.J. & Schmid A. (1979): Vitamin D and its analogues as
a new class of plant growth substances affecting rhizogenesis.
Nature, 280: 230-231.
(18) Pillonel Ch., Buchala A.J. & Meier H. (1980): Glucan synthesis by
intact cotton fibres fed with different precursors at the stages of
primary and secondary wall formation. Planta, 149: 306-312.
(19) Buchala A.J. & Meier H. (1981): An arabinogalactan from the
fibres of cotton (Gossypium arboreum L.). Carbohydrate Research,
89: 137-143.
(20) Meier H., Buchs L., Buchala A.J. & Homewood T. (1981): (13)-D-Glucan (callose) is a probable intermediate in the biosynthesis
of cellulose of cotton fibres. Nature, 289: 821-822.
(21) Jaquet J.-P., Buchala A.J. & Meier, H. (1982): Changes in the nonstructural carbohydrate content of cotton (Gossypium spp.) fibres at
different stages of development. Planta, 156: 481-486.
(22) Bucheli P., Dürr M., Buchala A.J. & Meier H. (1985): Glucanases in developing cotton (Gossypium hirsutum L.) fibres.
Planta, 166: 530-536.
(23) Pythoud F., Buchala A.J. & Schmid A. (1986): Adventitious root
formation in green cuttings of Populus tremula L.: Characterisation
of the effect of vitamin D3 and indolylbutyric acid. Physiologia
Plantarum, 68: 93-99.
(24) Schmid A. & Buchala A.J. (1987): An examination of the growth
substance activity of vitamin D3. Journal of Plant Growth
Regulation, 5: 175-180.
(25) Buchala A.J. (1987): Acid -fructofuranoside fructohydrolase
(invertase) in developing cotton (Gossypium arboreum L.) fibres
and its relationship to -glucan synthesis from sucrose fed to the
fibre apoplast. Journal of Plant Physiology, 127: 219-230.
(26) Buchala A.J. & Leisola M. (1987): Structure of the -glucan
secreted by Phanerochaete chrysosporium in continuous culture.
Carbohydrate Research, 165: 146-149.
(27) Bucheli P., Buchala A.J. & Meier H. (1987): Autolysis in vitro of
cotton (Gossypium hirsutum L.) fibre cell walls. Physiologia
Plantarum, 70: 633-638.
(28) Buchala A.J., Genoud T. and Meier H. (1987): Polysaccharides in
the culture medium of cotton cells cultured in vitro. Food
Hydrocolloids, 1: 359-363.
(29) Buchala A.J. & Pythoud F. (1988): Vitamin D and related
compounds as plant growth substances. Physiologia Plantarum, 74,
391-396.
(30) Pythoud F. & Buchala A.J. (1989): Investigations on the
mechanism of adventitious rooting promotion by vitamin D3 and
indolylbutyric acid in Populus tremula L. Plant Cell and
Environment, 12: 489-494.
(31) Pythoud F. & Buchala A.J. (1989). Peroxidase activity and
adventitious rooting in cuttings of Populus tremula L. Plant
Physiology and Biochemistry, 27: 503-510.
(32) Francey Y., Jaquet J.P., Cairoli S., Buchala A.J. & Meier H. (1989):
The biosynthesis of -glucans in cotton (Gossypium hirsutum L.)
fibres of ovules cultured in vitro. Journal of Plant Physiology, 134:
485-491.
(33) Buchala A.J., Roulin S. & Meier H. (1989): Polysaccharides in the
culture medium of cotton (Gossypium hirsutum L.) ovules cultured
in vitro. Plant Cell Reports, 8: 25-28.
(34) Buchala A.J., Genoud T. Roulin S., & Summermatter K. (1993):
Xyloglucans in different types of cotton (Gossypium sp) cells. Acta
Botanica. Neerlandica, 42: 213-220.
(35) Roulin S. & Buchala A.J. (1995): The induction of (13)-glucanases and other enzymes upon infection of groundnut leaves
with Cercospora arachidicola. Physiological and Molecular Plant
Pathology, 46: 471-489.
(36) Coquoz J.-L., Buchala A.J., Meuwly Ph. & Métraux J.P. (1995):
Arachidonic acid treatment of potato plants induces local synthesis
of salicylic acid and confers systemic resistance to Phytophthora
infestans and Alternaria solani. Phytopathology, 85: 1219-1224.
(37) Meuwly P., Mölders W., Buchala A.J. & Métraux J.P. (1995):
Local and systemic biosynthesis of salicylic acid in infected
cucumber plants. Plant Physiology 109: 1107-1114.
(38) Schmutz A., Buchala A.J. & Ryser U. (1996): Changing the
dimensions of suberin lamellae of green cotton fibers with a specific
inhibitor of endoplasmic reticulum-associated fatty acid elongases.
Plant Physiology 110: 403-411.
(39) Schweizer P., Felix G., Buchala A.J., Müller C. & Métraux J.-P.
(1996): Perception of free cutin monomers by plant cells. The Plant
Journal 10: 331-341.
(40) Mölders W., Buchala A.J. & Métraux J.P. (1996): Transport of
salicylic acid in tobacco necrosis virus infected cucumber plants.
Plant Physiology 112: 787-792.
(41) Penninckx, I.A.M.A., Eggermont K. Terras F.R.G., Thomma
B.P.H.J., De Samblanx G.W., Manners J.M., Buchala A., Métraux
J.-P. & Broekaert W.F. (1996): Pathogen-induced systemic
activation of a plant defensin gene in Arabidopsis follows a salicylic
acid-independent pathway. The Plant Cell 8: 2309-2323.
(42) Schweizer P., Buchala A., Silverman P., Seskar M., Raskin I. &
Métraux J.-P. (1997): Jasmonate-inducible genes are activated in
rice by pathogen attack without a concomitant increase in
endogenous jasmonate acid levels. Plant Physiology 114: 79-88.
(43) Schweizer P., Buchala A. & Métraux J.-P. (1997): Gene-expression
patterns and levels of jasmonic acid in rice treated with the
resistance inducer 2,6-dichloroisonicotinic acid. Plant Physiology
115, 61-70.
(44) Schweizer P., Buchala A., Dudler R. & Métraux J.-P. (1998):
Induced systemic resistance in wounded rice plants. The Plant
Journal 14: 475-481.
(45) Coquoz J.L., Buchala A.J. & Métraux J.P. (1998):The biosynthesis
of salicylic acid in potato. Plant Physiology 117, 1095-1101.
(46) Fauth M., Schweizer P., Buchala A., Marstädter C., Riederer M.,
Kato T. & Kauss H. (1998): Cutin monomers and surface wax
constituents elicit H2O2 in conditioned cucumber hypocotyl
segments and enhance the activity of other H2O2 elicitors. Plant
Physiology 117: 1373-1380
(47) Penninckx I.A.M.A., Thomma B.P.H.J., Buchala A., Métraux J.-P.
& Broekaert W.F. (1998): Parallel but cooperative activation of
jasmonate and ethylene response pathways is required for induction
of a plant defensin gene in Arabidopsis. The Plant Cell 10: 21032114.
(48) Moire L., Schmutz A., Buchala A., Yan B., Stark R.E. & Ryser U.
(1999): Glycerol is a suberin monomer: New experimental evidence
for an old hypothesis. Plant Physiology 119: 1137-1146.
(49) DeMeyer G., Capieau K., Audenaert K., Buchala A.J., Métraux J.P. & Höfte M. (1999): Nanogram amounts of salicylic acid
produced by the rhizobacterium Pseudomonas aeruginosa 7NSK2
activate the systemic acquired resistance pathway in bean.
Molecular Plant-Microbe Interactions 12: 450-458.
(50) Schafleitner R., Buchala A., &. Wilhelm E. (1999): Class III
chitinase expression and salicylic acid accumulation in chestnut
after challenge with hypovirulent and virulent Cryphonectria
parasitica (murr.) barr. Phyton 39: 191-196.
(51) Kozlowski G., Buchala A.J. & Métraux J.-P. (1999): Methyl
jasmonate protects Norway spruce [Picea abies (L.) Karst]
seedlings against Pythium ultimum Trow. Physiological and
Molecular Plant Pathology 55, 53-58.
(52) Sieber P., Schorderet M., Ryser U., Buchala A., Kolattukudy P.,
Métraux J.P. & Nawrath C. (2000): Transgenic arabidopsis plants
expressing a fungal cutinase show alterations in the structure and
properties of the cuticle and postgenital organ fusions. Plant Cell
12: 721-737.
(53) Pieterse C.M.J., van Pelt J.A., Ton J., Parchmann S., Mueller M.J.,
Buchala A.J., Métraux J.-P. & van Loon L.C. (2000):
Rhizobacteria-mediated induced systemic resistance (ISR) in
Arabidopsis requires sensitivity to jasmonate and ethylene but is not
accompanied by an increase in their production. Physiological and
Molecular Plant Pathology 57: 123-134.
(54) Hilpert B., Bohlmann H., op den Camp R., Przybyla D., Miersch
O., Buchala A. & Apel K. (2001): Isolation and characterization of
signal transduction mutants of Arabidopsis thaliana that
constituitively activate the octadecanoid pathway and form necrotic
microlesions. The Plant Journal 26: 435-446.
(55) Ton J., De Vos M., Robben C., Buchala A., Métraux J.P., Van
Loon L.C. & Pieterse C.M.J. (2002). Characterization of
Arabidopsis enhanced disease susceptibility mutants that are
affected in systemically induced resistance. The Plant Journal
29:11-21.
(56) Roulin S., Buchala A.J. & Fincher G.B. (2002): Induction of
(13,14)--glucan hydrolases in dark-grown barley seedlings.
Planta 215: 51-59.
(57) Genoud T., Buchala A.J., Chua N.-H. & Métraux J.-P. (2002).
Phytochrome signaling modulates the SA-perceptive pathway in
Arabidopsis.The Plant Journal 31: 87-95.
(58) Iavicoli A., Boutet E., Buchala A.J. & Métraux J.P. (2003). Induced
systemic resistance in Arabidopsis thaliana in response to root
inoculation with Pseudomonas fluorescens CHA0. Molecular PlantMicrobe Interactions 16: 851-858.
(59) Spoel S.H., Koornneef A., Claessens S.M.C., Kolrzelius J.P., Van
Pelt J.A., Mueller M.J., Buchala A.J., Métraux J.P., Brown R.,
Kazan K., Van Loon L.C., Dong X. & Pieterse C.M.J. (2003).
NPR1 modulates cross talk between salicylate- and jasmonatedependent defense pathways through a novel function in the cytosol.
Plant Cell 15: 760-770.
(60) Heck S., Grau T., Buchala A.J., Metraux J.P. & Nawrath C. (2003):
Genetic evidence that expression of NahG modifies defence
pathways independent of salicylic acid biosynthesis in the
Arabidopsis - Pseudomonas syringae pv. tomato interaction. The
Plant Journal 36: 342-352.
(61) Cruz Castillo M., Martínez C., Buchala A., Métraux J.P. & León J.
(2004): Gene-specific involvement of beta-oxidation in woundactivated responses in Arabidopsis thaliana. Plant Physiology 135:
85-94.
(62) De Vos M., Van Oosten V.R., Van Poecke R.M.P., Van Pelt J.A.,
Pozo M.J., Mueller M.J., Buchala A.J., Métraux J.-P., Van Loon
L.C., Dicke M. & Pieterse C.M.J. (2005): Signal signature and
transcriptome changes of Arabidopsis during pathogen and insect
attack. Molecular Plant-Microbe Interactions 18: 923-937.
(63) Parisy V., Poinssot B., Owsianowski L., Buchala A., Glazebrook J.
& Mauch F. (2007): Identification of PAD2 as a -glutamylcysteine
synthetase highlights the importance of glutathione in disease
resistance of Arabidopsis. Plant Journal 49: 159-172.
(64) Hukkanen A.T., Kokko H.I., Buchala A.J., McDougal G.J., Stewart
D., Kärenlampi S.O. & Karjalainen R.O. (2007). Benzthiadiazol
induces the accumulation of phenolics and improves resistance to
powdery mildew in strawberry. Journal of Agricultural and Food
Chemistry 55: 1862-1870.
(65) Schweighofer A., Kazanaviciute V., Scheikl E., Teige M., Doczi
R., Hirt H., Schwanninger M., Kant, M., Schuurink R., Mauch F.,
Buchala A.J., Cardinale F. & Meskiene I. (2007). The PP2C-type
Phosphatase AP2C1 Negatively Regulates MPK4 and MPK6, and
Controls Innate Immunity, Jasmonic Acid and Ethylene Levels in
Arabidopsis. Plant Cell 19: 2213-2224.
(66) Catinot J, Buchala A., Abou-Mansour E. & Métraux J.P. (2008):
Salicylic acid production in response to biotic and abiotic stress
depends on isochorismate in Nicotiana benthamiana FEBS Letters
582: 473-478.
(67) Schlaeppi K, Bodenhausen N., Buchala A., Mauch F. & Reymond
P. (2008): The glutathione-deficient mutant pad2-1 accumulates
lower amounts of glucosinolates and is more susceptible to the
insect herbivore Spodoptera littoralis. Plant Journal 55: 774-786.
(68) Chassot C., Buchala A., Schoonbeek H.J., Métraux J.P., & Lamotte
O. (2008): Wounding of Arabidopsis leaves causes a powerful but
transient protection against Botrytis infection. Plant Journal 55:
555-567.
(69) Garcion C., Lohmann A., Lamodière E., Catinot J., Buchala A.,
Doermann P. & Métraux J.-P. (2008): Characterization and
biological function of the ISOCHORISMATE SYNTHASE2 gene
of Arabidopsis. Plant Physiology 147: 1279-1287.
(70) Hukkanen A., Kokko H., Buchala A., Häyrinen J. & Kärenlampi S.
(2008): Benzothiadiazole affects the leaf proteome in arctic bramble
(Rubus arcticus). Molecular Plant Pathology 9: 799-808.
(71) Stefanto F., Abou-Mansour E., Buchala A, Kretschmer M.,
Mosbach A., Hahn M., Bochet C., Métraux J-P. & Schoonbeek H.J.
(2009): The ABC-transporter BcatrB from Botrytis cinerea exports
camalexin and is a virulence factor on Arabidopsis thaliana. Plant
Journal 58: 499-510.
(72) Bartels S., Anderson J.C., Gonzalez Besteiro M., Carreri A., Hirt
H., Buchala A., Métraux J.P., Peck S.C. & Ulm R. (2009): MAP
KINASE PHOSPHATASE1 and PROTEIN TYROSINE
PHOSPHATASE1 are repressors of salicylic acid synthesis and
SNC1-mediated responses in Arabidopsis. Plant Cell 21: 28842897.
(73) Schlaeppi K., Abou-Mansour E., Buchala A. & Mauch F. (2010):
The sequential action of indole glucosinolates and camalexin
determines disease resistance of Arabidopsis to Phytophthora
brassicae. Plant Journal 62: 840-851
(74) Bruessow F., Gouhier-Darimont C., Buchala A., Métraux J.-P. &
Reymond P. (2010): Insect eggs suppress plant defence against
chewing herbivores. Plant Journal 62: 876-885.
(75) Parinthawong N, Cottier S, Buchala A, Nawrath C & Métraux JP
(2015). Localization and expression of EDS5H a homologue of the
SA transporter EDS5. BMC Plant Biology 15 (online).
Peer-reviewed publications (medical sciences)
(76) Buchala A.J. & Laszt L. (1975): Studies on an immunological
method for the diagnosis of varicose veins. International Archives
of Allergy and Applied Immunology, 49: 391-395.
(77) Buchala A.J. & Laszt L. (1975): Biochemical diagnosis of varicose
veins. Phlebologie und Proktologie, 4: 101-107,
(78) Buchala A.J., Laszt L. & Corboud P. (1977): On the therapy of
varicosis: some observations using an immunological method of
diagnosis. Folia Angiologica, 12: 204-206.
(79) Mainieri D., Summermatter S., Seydoux J., Rusconi S., Russell
A.P., Montani J.P, Boss O., Buchala A.J. &. Dulloo A.G (2006): A
role for skeletal muscle stearoyl-CoA desaturase 1 in adiposespecific control of thermogenesis. FASEB Journal, 20: 1751-1753.
(80) Summermatter S., Mainieri D., Russell A.P., Seydoux J., Montani
J.P., Buchala A., Solinas G. & Dulloo A.G. (2008): Thrifty
metabolism that favors fat storage after caloric restriction: a role for
skeletal muscle phosphatidylinosoitol-3-kinase and AMP-activated
protein kinase. FASEB Journal 22: 774-785.
(81) Summermatter S., Marcelino H., Arsenijevic D., Buchala A.,
Aprikian O., Assimacopoulos-Jeannet F., Seydoux J., Montani J.P.,
Solinas G. & Dulloo A.G. (2009). Adipose tissue plasticity during
catch-up fat driven by thrifty metabolism: Relevance for muscleadipose glucose redistribution during catch-up growth. Diabetes 58:
2228-2237.
Chapters in books
(1) Buchala A.J. & Meier H. (1985): Biosynthesis of -glucans in
growing cotton (Gossypium arboreum L. and Gossypium hirsutum
L.) fibres. In "Biochemistry of Plant Cell Walls" eds. C.T. Brett &
J.R. Hillman, Cambridge University Press, Society of Experimental
Biology Seminar Series, 28, 221-241.
(2) Buchala A.J. (1999): Non-cellulosic carbohydrates in cotton fibers.
Chap. 5 In Cotton Fibres Developmental Biology, Quality
Improvement, and Textile Processing (ed. A.S. Basra) Haworth
Press, pp 113-136.
Meeting reports in publications with ISBN or ISSN
(1) Buchala, A.J. & Laszt, L. (1980): Ueber die Möglichkeiten der
medikamentösen Therapie bei varicosis und Ihre biochemishe
Kontrolle. Anthologica Medica Santoriana, 22-24.
(2) Buchala A.J., Roulin S., Coquoz J.L. & Meier H. (1991). Hostpathogen interactions in the system Arachis hypogaea-Cercospora
arachidicola. In Advances in Molecular Genetics of Plant-Microbe
Interactions, Vol. 1, (eds. H. Hennecke & D.P.S. Verma) Kluwer
Academic Publishers, Dordrecht, pp. 284-287.
(3) Roulin S. & Buchala A.J. (1993): Partial purification and
characterisation of three extracellular (13)--glucanases induced
upon infection of groundnut leaves with Cercospora arachidicola.
In Mechanisms of Plant Defense Responses (eds B. Fritig & M.
Legrand) Kluwer Academic Publishers, Dordrecht, p 362.
(4) Meuwly Ph., Sticher L., Mölders W., Summermatter K., Coquoz J.L., Buchala A.J. & Métraux J.-P. (1993): Salicylic acid and
systemic acquired resistance in cucumber and potato”. In Plant
Signals in Interactions with other Organisms (eds. J. Schulz & I.
Raskin) American Society of Plant Physiologists, pp. 54-64.
(5) Coquoz J.-L., Buchala A.J. & Meuwly P. (1994): Salicylic acid: a
signal substance produced upon eliciting potato leaves with
arachidonic acid? Acta Horticulturae, 381: 379-382.
(6) Schmutz A., Buchala A., Ryser U. & Jenny T. (1994): The phenols
in the wax and in the suberin polymer of green cotton fibres and
their functions. Acta Horticulturae, 381: 269-275.
(7) Schweizer P., Bindschedler L., Meuwly P., Mölders W., Coquoz J.L., Buchala A. & Métraux J.-P. (1995): Approaches to identify
genes for disease resistance in plants. In Eighth International
Congress of Pesticide Chemistry Options 2000 (eds. N.N. Ragsdale,
P.C. Kearney, & J.R. Plimmer) American Chemical Society, pp
225-235.
(8) Schweizer P., Buchala A. & Métraux J.P. (1997): Acquired
resistance of rice to the rice blast fungus Magnaporthe grisea . In
Chataigner J. (ed.). Maladies du riz en région méditerranéenne et
les possibilités d'amélioration de sa résistance = Rice diseases in
the Mediterranean region and breeding for resistance. Montpellier:
CIHEAM-IAMM, pp. 131-135.
(9) Métraux J.-P., Buchala A. & Nawrath C. (2000): Salicylic acid as a
signal for systemic acquired resistance. In Polyphenols 98 (ed. A.
Scalbert) INRA, pp xx-xx.
(10) Schlaeppi K., Abou-Mansour E., Buchala A. & Mauch F. (2010):
Glucosinolates are an important first layer defence in Arabidopsis
against Phytophthora brassicae. In "Biology of Molecular PlantMicrobe Interactions" Vol. 7 (CD-ROM), 2009 IS-MPMI
Symposium Proceedings, eds. H. Antoun, T. Avis, L. Bresson, D.
Prévost & M. Trepanier, APS Press.
Meeting abstracts in publications with ISBN or ISSN
(1) Pythoud F., Buchala A.J. and Schmid A. (1986): Adventitious
rooting in Populus tremula: characterisation of the synergy between
vitamin D3 and indolylbutyric acid. Experientia, 42: 655.
(1) Ryser U., Buchala A.J. and Meier H. (1986): Cotton fibres: a model
to study differentiation in plant cells. Experientia, 42: 655.
(3) Bucheli P., Buchala A.J. and Meier H. (1987): Autolysis in vitro of
cotton (Gossypium hirsutum L.) fibre cell walls. Experientia, 43:
659.
(4) Roulin S., Buchala A.J. & Meier H. (1989): Understanding the
interaction of groundnut plants with the pathogen Cercospora
arachidicola. Experientia, 45: A76.
(5) Merckelbach C., Buchala A.J., Schmid A. & Meier H. (1989):
Aventitious root formation in Populus tremula; a comparison
between IAA and IBA. Experientia, 45: A76.
(6) Coquoz J.-L., Palladino T., Schneider M., Buchala A.J. & Métraux
J.-P. (1995): Systemic acquired resistance in potato. Experientia,
51: A13.
(7) Schweizer P. Buchala A.J. & Métraux J.-P. (1995): The
octadecanoid signalling pathway mediates defence responses
against pathogen attack in rice. Experientia, 51: A13.
(8) Schweizer P., Buchala A.J. & Métraux J.-P. (1995): The
octadecanoid signalling pathway mediates defence responses
against pathogen attack in rice. Journal of Cellular Biochemistry,
Suppl. 21A: 490.
(9) Coquoz J.L., Buchala A.J. & Métraux J.P. (1996): The synthesis of
salicylic acid and systemic acquired resistance in potato.
Experientia, 52: A24.
(10) Summermatter S., Mainieri D., Russell A.P., Seydoux J., Montani
J.P., Buchala A., Solinas G. & Dulloo A. (2006): Skeletal muscle
insulin and leptin resistance during early catch-up fat driven by
suppressed thermogenesis: a role for impaired PI3K and AMPK
signalling. International Journal of Obsesity, 30: S70.
(11) Meskiene I., Buchala A., Schuurink R. & Schweighofer A. (2007):
Stress hormone jasmonate production is controlled by a PP2C
phosphatase. FEBS Journal, 274: 202.
(12) Summermatter S., Arsenijevic D., Marcelino H., Buchala A.,
Aprikan O., Assimacopoulos-Jeannet F., Montani J.P. & Dulloo
A.G. (2008): Enhanced adipose tissue PI3K activity and lipogenic
capacity during catch-up growth: relevance to muscle-adipose
glucose redistribution. International Journal of Obsesity, 32: S16.
Meeting reports or abstracts in publications without ISBN or ISSN*
(1) Buchala A.J. (1983): Note on the cover illustration. In The Third Cell
Wall Meeting (ed. A.J.Buchala), Université de Fribourg, 9-10.
(2) Buchala A.J. & Meier H. (1993). Acid invertase in cotton
(Gossypium arboreum L.) fibres In The Third Cell Wall Meeting
(ed. A.J. Buchala), Université de Fribourg, 17.
(3) Bucheli P., Buchala A.J. & Meier H. (1993). -Glucanases in
developing cotton (Gossypium hirsutum L.) fibres In The Third
Cell Wall Meeting (ed. A.J.Buchala), Université de Fribourg, 18.
(4) Buchala A.J., Roulin S. & Meier H. (1986): Polysaccharides secreted
into the culture medium from cotton (Gossypium hirsutum L.)
ovules cultured in vitro. In "Cell Walls '86" eds. B. Vian, D. Reis &
R. Goldberg, Université Pierre et Marie Curie - Ecole Normale
Supérieure, Paris, pp 344-345.
(5) Bucheli P., Buchala A.J. & Meier H. (1986): -Glucanases in
developing cotton fibres can function as transglucosylases. In "Cell
Walls '86" eds. B. Vian, D. Reis & R. Goldberg, Université Pierre et
Marie Curie - Ecole Normale Supérieure, Paris, pp 368-369.
(6) Meier H., Buchala A.J., Allenbach A., Buchs L. & Christ U. (1986):
Products from UDP-glucose after incubation with damaged cells,
homogenates or fractions thereof. In "Cell Walls '86" eds. B. Vian,
D. Reis & R. Goldberg, Université Pierre et Marie Curie - Ecole
Normale Supérieure, Paris, pp 306-307.
(7) Buchala A.J., Roulin S., Coquoz J.L. & Meier H. (1989):
Understanding the pathogenesis of the early leaf spot disease in
groundnut. Abstracts of the Fifth Cell Wall Meeting (eds. Fry, S.C.,
Brett, C.T. & Reid J.S.G.) 55.
(8) Schweizer P., Buchala A., Müller C., Felix G., & Métraux J.-P.
(1996). Perception of cutin monomers by plants. 8th Int. Symposium
on Molecular Plant-Microbe Interactions, Knoxville TN/USA,.
(9) Moire L., Buchala A. & Ryser U. (1998). Differential display
method used to clone genes involved in suberin biosynthesis. In
Proceedings of the 8th International Cell Wall Meeting, Norwich.
(10)
* This list is far from complete