How boundaries control plant development

Current Opinion in Plant Biology

Volumn 17, Issue 1, 2014, Pages 116-125

  Žádníková, Petra ^a   Simon, Rüdiger ^a  

^a Heinrich Heine Universität and Cluster of Excellence on Plant Sciences   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

VEGETABLE PROTEIN;

BIOLOGICAL MODEL; CELL PROLIFERATION; CYTOLOGY; GENE EXPRESSION REGULATION; GENE REGULATORY NETWORK; GENETICS; GROWTH, DEVELOPMENT AND AGING; MERISTEM; METABOLISM; PLANT; PLANT DEVELOPMENT; REVIEW; STEM CELL;

CELL PROLIFERATION; GENE EXPRESSION REGULATION, DEVELOPMENTAL; GENE EXPRESSION REGULATION, PLANT; GENE REGULATORY NETWORKS; MERISTEM; MODELS, BIOLOGICAL; PLANT DEVELOPMENT; PLANT PROTEINS; PLANT SHOOTS; STEM CELLS;

EID: 84893461215     PISSN: 13695266     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.pbi.2013.11.013     Document Type: Review

References (51)

1. Milani P., Gholamirad M., Traas J., Arnéodo A., Boudaoud A., Argoul F., Hamant O. In vivo analysis of local wall stiffness at the shoot apical meristem in Arabidopsis using atomic force microscopy. Plant J 2011, 67:1116-1123.
2. Chan J., Crowell E., Eder M., Calder G., Bunnewell S., Findlay K., Vernhettes S., Höfte H., Lloyd C. The rotation of cellulose synthase trajectories is microtubule dependent and influences the texture of epidermal cell walls in Arabidopsis hypocotyls. J Cell Sci 2010, 123:3490-3495.
3. Crowell E.F., Timpano H., Desprez T., Franssen-Verheijen T., Emons A.-M., Höfte H., Vernhettes S. Differential regulation of cellulose orientation at the inner and outer face of epidermal cells in the Arabidopsis hypocotyl. Plant Cell 2011, 23:2592-2605.
4. Li S., Lei L., Somerville C.R., Gu Y. Cellulose synthase interactive protein 1 (CSI1) links microtubules and cellulose synthase complexes. Proc Natl Acad Sci U S A 2012, 109:185-190.
5. Lei L., Li S., Gu Y. Cellulose synthase interactive protein 1 (CSI1) mediates the intimate relationship between cellulose microfibrils and cortical microtubules. Plant Signal Behav 2012, 7:714-718.
6. Landrein B., Lathe R., Bringmann M., Vouillot C., Ivakov A., Boudaoud A., Persson S., Hamant O. Impaired cellulose synthase guidance leads to stem torsion and twists phyllotactic patterns in Arabidopsis. Curr Biol 2013, 23:895-900.
7. Uyttewaal M., Burian A., Alim K., Landrein B., Borowska-Wykret D., Dedieu A., Peaucelle A., Ludynia M., Traas J., Boudaoud A., et al. Mechanical stress acts via katanin to amplify differences in growth rate between adjacent cells in Arabidopsis. Cell 2012, 149:439-451.
8. Gibson W.T., Gibson M.C. Growing cells push back under pressure. Cell 2012, 149:259-261.
9. Heisler M.G., Hamant O., Krupinski P., Uyttewaal M., Ohno C., Jönsson H., Traas J., Meyerowitz E.M. Alignment between PIN1 polarity and microtubule orientation in the shoot apical meristem reveals a tight coupling between morphogenesis and auxin transport. PLoS Biol 2010, 8:e1000516.
10. Besnard F., Vernoux T., Hamant O. Organogenesis from stem cells in planta: multiple feedback loops integrating molecular and mechanical signals. Cell Mol Life Sci 2011, 68:2885-2906.
11. Cheng X., Peng J., Ma J., Tang Y., Chen R., Mysore K.S., Wen J. NO APICAL MERISTEM (MtNAM) regulates floral organ identity and lateral organ separation in Medicago truncatula. New Phytol 2012, 195:71-84.
12. Spinelli S.V., Martin A.P., Viola I.L., Gonzalez D.H., Palatnik J.F. A mechanistic link between STM and CUC1 during Arabidopsis development. Plant Physiol 2011, 156:1894-1904.
13. Vernoux T., Besnard F., Traas J. Auxin at the shoot apical meristem. Cold Spring Harb Perspect Biol 2010, 2:e001487.
14. Bilsborough G.D., Runions A., Barkoulas M., Jenkins H.W., Hasson A., Galinha C., Laufs P., Hay A., Prusinkiewicz P., Tsiantis M. Model for the regulation of Arabidopsis thaliana leaf margin development. Proc Natl Acad Sci U S A 2011, 108:3424-3429.
15. Zhao H., Liu L., Mo H., Qian L., Cao Y., Cui S., Li X., Ma L. The ATP-binding cassette transporter ABCB19 regulates postembryonic organ separation in Arabidopsis. PLoS ONE 2013, 8:e60809.
16. Koyama T., Mitsuda N., Seki M., Shinozaki K., Ohme-Takagi M. TCP transcription factors regulate the activities of ASYMMETRIC LEAVES1 and miR164, as well as the auxin response, during differentiation of leaves in Arabidopsis. Plant Cell 2010, 22:3574-3588.
17. Engelhorn J., Reimer J.J., Leuz I., Göbel U., Huettel B., Farrona S., Turck F. Development-related PcG target in the apex 4 controls leaf margin architecture in Arabidopsis thaliana. Development 2012, 139:2566-2575.
18. Lampugnani E.R., Kilinc A., Smyth D.R. PETAL LOSS is a boundary gene that inhibits growth between developing sepals in Arabidopsis thaliana. Plant J 2012, 71:724-735.
19. Uberti-Manassero N.G., Lucero L.E., Viola I.L., Vegetti A.C., Gonzalez D.H. The class I protein AtTCP15 modulates plant development through a pathway that overlaps with the one affected by CIN-like TCP proteins. J Exp Bot 2012, 63:809-823.
20. Lampugnani E.R., Kilinc A., Smyth D.R. Auxin controls petal initiation in Arabidopsis. Development 2013, 1:185-194.
21. Sauret-Güeto S., Schiessl K., Bangham A., Sablowski R., Coen E. JAGGED controls Arabidopsis petal growth and shape by interacting with a divergent polarity field. PLoS Biol 2013, 11:e1001550.
22. Huang T., López-Giráldez F., Townsend J.P., Irish V.F. RBE controls microRNA164 expression to effect floral organogenesis. Development 2012, 139:2161-2169.
23. Nibau C., Di Stilio V.S., Wu H.-M., Cheung A.Y. Arabidopsis: tobacco superman regulate hormone signalling and mediate cell proliferation and differentiation. J Exp Bot 2011, 62:949-961.
24. Takeda S., Hanano K., Kariya A., Shimizu S., Zhao L., Matsui M., Tasaka M., Aida M. CUP-SHAPED COTYLEDON1 transcription factor activates the expression of LSH4 and LSH3, two members of the ALOG gene family, in shoot organ boundary cells. Plant J 2011, 66:1066-1077.
25. Ikezaki M., Kojima M., Sakakibara H., Kojima S., Ueno Y., Machida C., Machida Y. Genetic networks regulated by ASYMMETRIC LEAVES1 (AS1) and AS2 in leaf development in Arabidopsis thaliana: KNOX genes control five morphological events. Plant J 2010, 61:70-82.
26. Ha C.M., Jun J.H., Fletcher J.C. Control of Arabidopsis leaf morphogenesis through regulation of the YABBY and KNOX families of transcription factors. Genetics 2010, 186:197-206.
27. Khan M., Tabb P., Hepworth S.R. BLADE-ON-PETIOLE1 and 2 regulate Arabidopsis inflorescence architecture in conjunction with homeobox genes KNAT6 and ATH1. Plant Signal Behav 2012, 7:788-792.
28. Khan M., Xu M., Murmu J., Tabb P., Liu Y., Storey K., McKim S.M., Douglas C.J., Hepworth S.R. Antagonistic interaction of BLADE-ON-PETIOLE1 and 2 with BREVIPEDICELLUS and PENNYWISE regulates Arabidopsis inflorescence architecture. Plant Physiol 2012, 158:946-960.
29. Hamant O., Pautot V. Plant development: a TALE story. CR Biol 2010, 333:371-381.
30. Lodha M., Marco C.F., Timmermans M.C.P. The ASYMMETRIC LEAVES complex maintains repression of KNOX homeobox genes via direct recruitment of Polycomb-repressive complex2. Genes Dev 2013, 27:596-601.
31. Rast M.I., Simon R. Arabidopsis JAGGED LATERAL ORGANS acts with ASYMMETRIC LEAVES2 to coordinate KNOX and PIN expression in shoot and root meristems. Plant Cell 2012, 24:2917-2933.
32. Bureau M., Rast M.I., Illmer J., Simon R. JAGGED LATERAL ORGAN (JLO) controls auxin dependent patterning during development of the Arabidopsis embryo and root. Plant Mol Biol 2012, 74:479-491.
33. Jun J.H., Ha C.M., Fletcher J.C. BLADE-ON-PETIOLE1 coordinates organ determinacy and axial polarity in Arabidopsis by directly activating ASYMMETRIC LEAVES2. Plant Cell 2010, 22:62-76.
34. Lee D.-K., Geisler M., Springer P.S. LATERAL ORGAN FUSION1 and LATERAL ORGAN FUSION2 function in lateral organ separation and axillary meristem formation in Arabidopsis. Development 2009, 136:2423-2432.
35. Arnaud N., Laufs P. Plant development: brassinosteroids go out of bounds. Curr Biol 2013, 23:152-154.
36. Berckmans B., Vassileva V., Schmid S.P.C., Maes S., Parizot B., Naramoto S., Magyar Z., Alvim Kamei C.L., Koncz C., Bögre L., et al. Auxin-dependent cell cycle reactivation through transcriptional regulation of Arabidopsis E2Fa by lateral organ boundary proteins. Plant Cell 2011, 23:3671-3683.
37. Kim J., Lee H.W. Direct activation of EXPANSIN14 by LBD18 in the gene regulatory network of lateral root formation in Arabidopsis. Plant Signal Behav 2013, 8:e22979.
38. Yordanov Y.S., Busov V. Boundary genes in regulation and evolution of secondary growth. Plant Signal Behav 2011, 6:688-690.
39. Yordanov Y.S., Regan S., Busov V. Members of the LATERAL ORGAN BOUNDARIES DOMAIN transcription factor family are involved in the regulation of secondary growth in Populus. Plant Cell 2010, 22:3662-3677.
40. Sun X., Feng Z., Meng L., Zhu J., Geitmann A. Arabidopsis ASL11/LBD15 is involved in shoot apical meristem development and regulates WUS expression. Planta 2013, 237:1367-1378.
41. Cho E., Zambryski P.C. Organ boundary1 defines a gene expressed at the junction between the shoot apical meristem and lateral organs. Proc Natl Acad Sci U S A 2011, 108:2154-2159.
42. Gendron J.M., Liu J.-S., Fan M., Bai M.-Y., Wenkel S., Springer P.S., Barton M.K., Wang Z.-Y. Brassinosteroids regulate organ boundary formation in the shoot apical meristem of Arabidopsis. Proc Natl Acad Sci U S A 2012, 109:21152-21157.
43. Bell E.M., Lin W., Husbands A.Y., Yu L., Jaganatha V., Jablonska B., Mangeon A., Neff M.M., Girke T., Springer P.S. Arabidopsis lateral organ boundaries negatively regulates brassinosteroid accumulation to limit growth in organ boundaries. Proc Natl Acad Sci U S A 2012, 109:21146-21151.
44. Liljegren S.J. Organ abscission: exit strategies require signals and moving traffic. Curr Opin Plant Biol 2012, 15:670-676.
45. Shi C.-L., Stenvik G.-E., Vie A.K., Bones A.M., Pautot V., Proveniers M., Aalen R.B., Butenko M.A. Arabidopsis class I KNOTTED-like homeobox proteins act downstream in the IDA-HAE/HSL2 floral abscission signaling pathway. Plant Cell 2011, 23:2553-2567.
46. Butenko M.A., Shi C.-L., Aalen R.B. KNAT1, KNAT2 and KNAT6 act downstream in the IDA-HAE/HSL2 signaling pathway to regulate floral organ abscission. Plant Signal Behav 2012, 7:135-138.
47. Nakano T., Kimbara J., Fujisawa M., Kitagawa M., Ihashi N., Maeda H., Kasumi T., Ito Y. MACROCALYX and JOINTLESS interact in the transcriptional regulation of tomato fruit abscission zone development. Plant Physiol 2012, 158:439-450.
48. Kellogg E.A., Camara P.E.A.S., Rudall P.J., Ladd P., Malcomber S.T., Whipple C.J., Doust A.N. Early inflorescence development in the grasses (Poaceae). Front Plant Sci 2013, 4:250.
49. Chuck G., Whipple C., Jackson D., Hake S. The maize SBP-box transcription factor encoded by tasselsheath4 regulates bract development and the establishment of meristem boundaries. Development 2010, 137:1243-1250.
50. Oikawa T., Kyozuka J. Two-step regulation of LAX PANICLE1 protein accumulation in axillary meristem formation in rice. Plant Cell 2009, 21:1095-1108.
51. Tabuchi H., Zhang Y., Hattori S., Omae M., Shimizu-Sato S., Oikawa T., Qian Q., Nishimura M., Kitano H., Xie H., et al. LAX PANICLE2 of rice encodes a novel nuclear protein and regulates the formation of axillary meristems. Plant Cell 2011, 23:3276-3287.