Research teams

Carbon, Allocation, Transport and Signaling

CATS 6 members 76 IJPB publications (2006-to date)

IJPB publications (2006-to date) [76]
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Kidwai M, Mishra P, Bellini C (2022). Species-specific transcriptional reprogramming during adventitious root initiation. Trends Plant Sci, S1360-1385(22)00302-8. PubMed | DOI
Aubry E, Hoffmann B, Vilaine F, Gilard F, Klemens PAW, Guérard F, Gakière B, Neuhaus HE, Bellini C, Dinant S, Le Hir R (2022). A vacuolar hexose transport is required for xylem development in the inflorescence stem. Plant Physiol, 188(2):1229-1247. PubMed | DOI
Ranjan A, Perrone I, Alallaq S, Singh R, Rigal A, Brunoni F, Chitarra W, Guinet F, Kohler A, Martin F, Street NR, Bhalerao R, Legué V, Bellini C (2022). Molecular basis of differential adventitious rooting competence in poplar genotypes. J Exp Bot, erac126. PubMed | DOI
Amiour N, Décousset L, Rouster J, Quenard N, Buet C, Dubreuil P, Quilleré I, Brulé L, Cukier C, Dinant S, Sallaud C, Dubois F, Limami AM, Lea PJ, Hirel B (2021). Impacts of environmental conditions, and allelic variation of cytosolic glutamine synthetase on maize hybrid kernel production. Commun Biol, 4(1):1095. PubMed | DOI
Lu J, Le Hir R, Gómez-Páez DM, Coen O, Péchoux C, Jasinski S, Magnani E (2021). The nucellus: between cell elimination and sugar transport. Plant Physiol, 185(2):478-490. PubMed | DOI
Marco F, Batailler B, Thorpe MR, Razan F, Le Hir R, Vilaine F, Bouchereau A, Martin-Magniette ML, Eveillard S, Dinant S (2021). Involvement of SUT1 and SUT2 Sugar Transporters in the Impairment of Sugar Transport and Changes in Phloem Exudate Contents in Phytoplasma-Infected Plants. Int J Mol Sci, 22(2):745. PubMed | DOI
Valifard M, Le Hir R, Müller J, Scheuring D, Neuhaus HE, Pommerrenig B (2021). Vacuolar fructose transporter SWEET17 is critical for root development and drought tolerance. Plant Physiol, 187(4):2716-2730. PubMed | DOI
Alallaq S, Ranjan A, Brunoni F, Novák O, Lakehal A, Bellini C (2020). Red Light Controls Adventitious Root Regeneration by Modulating Hormone Homeostasis in Picea abies Seedlings. Front Plant Sci, 11:586140. PubMed | DOI
Brunoni F, Collani S, Casanova-Saez R, Simura J, Karady M, Schmid M, Ljung K, Bellini C (2020). Conifers exhibit a characteristic inactivation of auxin to maintain tissue homeostasis. New Phytol, 226:1753-1765. PubMed | DOI
Desrut A, Moumen B, Thibault F, Le Hir R, Coutos-Thévenot P, Vriet C (2020). Beneficial rhizobacteria Pseudomonas simiae WCS417 induce major transcriptional changes in plant sugar transport. J Exp Bot, 71(22):7301-7315. PubMed | DOI
Lakehal A, Dob A, Rahneshan Z, Novák O, Escamez S, Alallaq S, Strnad M, Tuominen H, Bellini C (2020). ETHYLENE RESPONSE FACTOR 115 integrates jasmonate and cytokinin signaling machineries to repress adventitious rooting in Arabidopsis. New Phytol, 228(5):1611-1626. PubMed | DOI
Lakehal A, Ranjan A, Bellini C (2020). Multiple Roles of Jasmonates in Shaping Rhizotaxis: Emerging Integrators. Methods Mol Biol, 2085:3-22. PubMed | DOI
Brunoni F, Collani S, Simura J, Schmid M, Bellini C, Ljung K (2019). A bacterial assay for rapid screening of IAA catabolic enzymes. Plant Methods, 15:126. PubMed | DOI
Brunoni F, Ljung K, Bellini C (2019). Control of root meristem establishment in conifers. Physiol Plant, 165:81-89. PubMed | DOI
Lakehal A, Chaabouni S, Cavel E, Le Hir R, Ranjan A, Raneshan Z, Novák O, Pacurar DI, Perrone I, Jobert F, Gutierrez L, Bako L, Bellini C (2019). A Molecular Framework for the Control of Adventitious Rooting by the TIR1/AFB2-Aux/IAA-Dependent Auxin Signaling in Arabidopsis. Mol Plant, . PubMed | DOI
Rahneshan Z, Nasibi F, Lakehal A, Bellini C (2018). Unravelling salt stress responses in two pistachio (Pistacia vera L.) genotypes. Acta Physiologiae Plantarum, 40:. PubMed | DOI
Pacurar DI, Pacurar ML, Lakehal A, Pacurar AM, Ranjan A, Bellini C (2017). The Arabidopsis Cop9 signalosome subunit 4 (CNS4) is involved in adventitious root formation. Sci Rep, 7:628. PubMed | DOI
Cayla T, Batailler B, Le Hir R, Revers F, Anstead JA, Thompson GA, Grandjean O, Dinant S (2015). Live imaging of companion cells and sieve elements in Arabidopsis leaves. PLoS One, 10:e0118122. PubMed | DOI
Bellini C, Pacurar DI, Perrone I (2014). Adventitious roots and lateral roots: similarities and differences. Annu Rev Plant Biol, 65:639-666. PubMed | DOI
Pacurar DI, Pacurar ML, Bussell JD, Schwambach J, Pop TI, Kowalczyk M, Gutierrez L, Cavel E, Chaabouni S, Ljung K, Fett-Neto AG, Pamfil D, Bellini C (2014). Identification of new adventitious rooting mutants amongst suppressors of the Arabidopsis thaliana superroot2 mutation. J Exp Bot, 65:1605-1618. PubMed | DOI
Chardon F, Bedu M, Calenge F, Klemens PA, Spinner L, Clément G, Chietera G, Leran S, Ferrand M, Lacombe B, Loudet O, Dinant S, Bellini C, Neuhaus HE, Daniel-Vedele F, Krapp A (2013). Leaf fructose content is controlled by the vacuolar transporter SWEET17 in Arabidopsis. Curr Biol, 23:697-702. PubMed | DOI
Le Hir R, Sorin C, Chakraborti D, Moritz T, Schaller H, Tellier F, Robert S, Morin H, Bako L, Bellini C (2013). ABCG9, ABCG11 and ABCG14 ABC transporters are required for vascular development in Arabidopsis. Plant J, 76:811-824. PubMed | DOI
Van Bel AJ, Helariutta Y, Thompson GA, Ton J, Dinant S, Ding B, Patrick JW (2013). Phloem: the integrative avenue for resource distribution, signaling, and defense. Front Plant Sci, 4:471. PubMed | DOI
Batailler B, Lemaitre T, Vilaine F, Sanchez C, Renard D, Cayla T, Beneteau J, Dinant S (2012). Soluble and filamentous proteins in Arabidopsis sieve elements. Plant Cell Environ, 35:1258-1273. PubMed | DOI
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