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1 to 24 of 24  Show
  1. 1
    "Sequence and analysis of chromosome 3 of the plant Arabidopsis thaliana."
    Salanoubat M., Lemcke K., Rieger M., Ansorge W., Unseld M., Fartmann B., Valle G., Bloecker H., Perez-Alonso M., Obermaier B., Delseny M., Boutry M., Grivell L.A., Mache R., Puigdomenech P., De Simone V., Choisne N., Artiguenave F.
    , Robert C., Brottier P., Wincker P., Cattolico L., Weissenbach J., Saurin W., Quetier F., Schaefer M., Mueller-Auer S., Gabel C., Fuchs M., Benes V., Wurmbach E., Drzonek H., Erfle H., Jordan N., Bangert S., Wiedelmann R., Kranz H., Voss H., Holland R., Brandt P., Nyakatura G., Vezzi A., D'Angelo M., Pallavicini A., Toppo S., Simionati B., Conrad A., Hornischer K., Kauer G., Loehnert T.-H., Nordsiek G., Reichelt J., Scharfe M., Schoen O., Bargues M., Terol J., Climent J., Navarro P., Collado C., Perez-Perez A., Ottenwaelder B., Duchemin D., Cooke R., Laudie M., Berger-Llauro C., Purnelle B., Masuy D., de Haan M., Maarse A.C., Alcaraz J.-P., Cottet A., Casacuberta E., Monfort A., Argiriou A., Flores M., Liguori R., Vitale D., Mannhaupt G., Haase D., Schoof H., Rudd S., Zaccaria P., Mewes H.-W., Mayer K.F.X., Kaul S., Town C.D., Koo H.L., Tallon L.J., Jenkins J., Rooney T., Rizzo M., Walts A., Utterback T., Fujii C.Y., Shea T.P., Creasy T.H., Haas B., Maiti R., Wu D., Peterson J., Van Aken S., Pai G., Militscher J., Sellers P., Gill J.E., Feldblyum T.V., Preuss D., Lin X., Nierman W.C., Salzberg S.L., White O., Venter J.C., Fraser C.M., Kaneko T., Nakamura Y., Sato S., Kato T., Asamizu E., Sasamoto S., Kimura T., Idesawa K., Kawashima K., Kishida Y., Kiyokawa C., Kohara M., Matsumoto M., Matsuno A., Muraki A., Nakayama S., Nakazaki N., Shinpo S., Takeuchi C., Wada T., Watanabe A., Yamada M., Yasuda M., Tabata S.
    Nature 408:820-822(2000) [PubMed] [Europe PMC] [Abstract]
    Cited for: NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
    Category: Sequences.
    Strain: cv. Columbia.
    Source: UniProtKB/Swiss-Prot (reviewed).

    This publication is cited by 6611 and mapped to 2 other entries.

  2. 2
    "Araport11: a complete reannotation of the Arabidopsis thaliana reference genome."
    Cheng C.Y., Krishnakumar V., Chan A.P., Thibaud-Nissen F., Schobel S., Town C.D.
    Plant J. 89:789-804(2017) [PubMed] [Europe PMC] [Abstract]
    Cited for: GENOME REANNOTATION.
    Category: Sequences.
    Strain: cv. Columbia.
    Source: UniProtKB/Swiss-Prot (reviewed).

    This publication is cited by 39207 other entries.

  3. 3
    Category: Sequences.
    Strain: cv. Columbia.
    Source: UniProtKB/Swiss-Prot (reviewed).

    This publication is cited by 7508 and mapped to 1 other entries.

  4. 4
    "Arabidopsis BRANCHED1 acts as an integrator of branching signals within axillary buds."
    Aguilar-Martinez J.A., Poza-Carrion C., Cubas P.
    Plant Cell 19:458-472(2007) [PubMed] [Europe PMC] [Abstract]
    Cited for: GENE FAMILY, NOMENCLATURE.
    Category: Names & Taxonomy, Family & Domains.
    Source: UniProtKB/Swiss-Prot (reviewed).

    This publication is cited by 23 and mapped to 1 other entries.

  5. 5
    "Arabidopsis transcription factors: genome-wide comparative analysis among eukaryotes."
    Riechmann J.L., Heard J., Martin G., Reuber L., Jiang C., Keddie J., Adam L., Pineda O., Ratcliffe O.J., Samaha R.R., Creelman R., Pilgrim M., Broun P., Zhang J.Z., Ghandehari D., Sherman B.K., Yu G.
    Science 290:2105-2110(2000) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 1446 other entries.

  6. 6
    "The cold-induced early activation of phospholipase C and D pathways determines the response of two distinct clusters of genes in Arabidopsis cell suspensions."
    Vergnolle C., Vaultier M.-N., Taconnat L., Renou J.-P., Kader J.-C., Zachowski A., Ruelland E.
    Plant Physiol. 139:1217-1233(2005) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 171 other entries.

  7. 7
    "Transcriptome analysis of Arabidopsis clubroots indicate a key role for cytokinins in disease development."
    Siemens J., Keller I., Sarx J., Kunz S., Schuller A., Nagel W., Schmuelling T., Parniske M., Ludwig-Mueller J.
    Mol. Plant Microbe Interact. 19:480-494(2006) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 132 other entries.

  8. 8
    "Qualitative network models and genome-wide expression data define carbon/nitrogen-responsive molecular machines in Arabidopsis."
    Gutierrez R.A., Lejay L.V., Dean A., Chiaromonte F., Shasha D.E., Coruzzi G.M.
    Genome Biol. 8:R7-R7(2007) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 13 other entries.

  9. 9
    "Transcription factor AtTCP14 regulates embryonic growth potential during seed germination in Arabidopsis thaliana."
    Tatematsu K., Nakabayashi K., Kamiya Y., Nambara E.
    Plant J. 53:42-52(2008) [PubMed] [Europe PMC] [Abstract]
    Source: PGenN:17953649, TAIR:locus:2079202.
  10. 10
    "Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection."
    Ascencio-Ibanez J.T., Sozzani R., Lee T.J., Chu T.M., Wolfinger R.D., Cella R., Hanley-Bowdoin L.
    Plant Physiol. 148:436-454(2008) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 5426 other entries.

  11. 11
    "Functional compensation of primary and secondary metabolites by duplicate genes in Arabidopsis thaliana."
    Hanada K., Sawada Y., Kuromori T., Klausnitzer R., Saito K., Toyoda T., Shinozaki K., Li W.H., Hirai M.Y.
    Mol. Biol. Evol. 28:377-382(2011) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 1936 other entries.

  12. 12
    "TCP14 and TCP15 affect internode length and leaf shape in Arabidopsis."
    Kieffer M., Master V., Waites R., Davies B.
    Plant J. 68:147-158(2011) [PubMed] [Europe PMC] [Abstract]
    Annotation: Together the two genes TCP14 and TCP15 influence plant stature by promoting cell division in young internodes.Imported.
    Source: GeneRIF:823916, TAIR:locus:2079202.

    This publication is mapped to 2 other entries.

  13. 13
    Source: TAIR:locus:2079202.

    This publication is mapped to 13 other entries.

  14. 14
    Category: Interaction.
    Source: IntAct:Q93Z00.

    This publication is mapped to 1939 other entries.

  15. 15
    "Arabidopsis thaliana DOF6 negatively affects germination in non-after-ripened seeds and interacts with TCP14."
    Rueda-Romero P., Barrero-Sicilia C., Gomez-Cadenas A., Carbonero P., Onate-Sanchez L.
    J. Exp. Bot. 63:1937-1949(2012) [PubMed] [Europe PMC] [Abstract]
    Category: Subcellular Location.
    Annotation: DOF6 negatively affects seed germination and opposes TCP14 function in the regulation of a specific set of ABA-related genes.Imported.
    Source: GeneRIF:823916, TAIR:locus:2079202.

    This publication is mapped to 2 other entries.

  16. 16
    "The Arabidopsis O-linked N-acetylglucosamine transferase SPINDLY interacts with class I TCPs to facilitate cytokinin responses in leaves and flowers."
    Steiner E., Efroni I., Gopalraj M., Saathoff K., Tseng T.S., Kieffer M., Eshed Y., Olszewski N., Weiss D.
    Plant Cell 24:96-108(2012) [PubMed] [Europe PMC] [Abstract]
    Category: Interaction.
    Annotation: Data suggest that responses of leaves and flowers to CK are mediated by SPY-dependent TCP14 and TCP15 activities.Imported.
    Source: GeneRIF:823916, TAIR:locus:2079202.

    This publication is mapped to 5 other entries.

  17. 17
    "Class I TCPs modulate cytokinin-induced branching and meristematic activity in tomato."
    Steiner E., Yanai O., Efroni I., Ori N., Eshed Y., Weiss D.
    Plant Signal Behav 7:807-810(2012) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 1 other entry.

  18. 18
    "The Arabidopsis immune adaptor SRFR1 interacts with TCP transcription factors that redundantly contribute to effector-triggered immunity."
    Kim S.H., Son G.H., Bhattacharjee S., Kim H.J., Nam J.C., Nguyen P.D., Hong J.C., Gassmann W.
    Plant J. 78:978-989(2014) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 8 other entries.

  19. 19
    "Class I TCP-DELLA interactions in inflorescence shoot apex determine plant height."
    Daviere J.M., Wild M., Regnault T., Baumberger N., Eisler H., Genschik P., Achard P.
    Curr. Biol. 24:1923-1928(2014) [PubMed] [Europe PMC] [Abstract]
    Source: TAIR:locus:2079202.

    This publication is mapped to 3 other entries.

  20. 20
    "Convergent targeting of a common host protein-network by pathogen effectors from three kingdoms of life."
    Wessling R., Epple P., Altmann S., He Y., Yang L., Henz S.R., McDonald N., Wiley K., Bader K.C., Glasser C., Mukhtar M.S., Haigis S., Ghamsari L., Stephens A.E., Ecker J.R., Vidal M., Jones J.D., Mayer K.F.
    , Ver Loren van Themaat E., Weigel D., Schulze-Lefert P., Dangl J.L., Panstruga R., Braun P.
    Cell Host Microbe 16:364-375(2014) [PubMed] [Europe PMC] [Abstract]
    Category: Interaction.
    Source: IntAct:Q93Z00.

    This publication is cited by 83 and mapped to 52 other entries.

  21. 21
    "TCP14 and TCP15 mediate the promotion of seed germination by gibberellins in Arabidopsis thaliana."
    Resentini F., Felipo-Benavent A., Colombo L., Blazquez M.A., Alabadi D., Masiero S.
    Mol Plant 8:482-485(2015) [PubMed] [Europe PMC] [Abstract]
    Annotation: TCP14 and TCP15 act downstream of the gibberellins and promote seed germination.Imported.
    Source: GeneRIF:823916, TAIR:locus:2079202.

    This publication is mapped to 2 other entries.

  22. 22
    "The ubiquitin receptors DA1, DAR1, and DAR2 redundantly regulate endoreduplication by modulating the stability of TCP14/15 in Arabidopsis."
    Peng Y., Chen L., Lu Y., Wu Y., Dumenil J., Zhu Z., Bevan M.W., Li Y.
    Plant Cell 27:649-662(2015) [PubMed] [Europe PMC] [Abstract]
    Annotation: DA1 DAR1 and DAR2 physically interact with the transcription factors TCP14 and TCP15 which repress endoreduplication.Imported.
    Source: GeneRIF:823916, TAIR:locus:2079202.

    This publication is mapped to 13 other entries.

  23. 23
    "The Putative O-Linked N-Acetylglucosamine Transferase SPINDLY Inhibits Class I TCP Proteolysis to Promote Sensitivity to Cytokinin."
    Steiner E., Livne S., Kobinson-Katz T., Tal L., Pri-Tal O., Mosquna A., Tarkowska D., Mueller B., Tarkowski P., Weiss D.
    Plant Physiol. 171:1485-1494(2016) [PubMed] [Europe PMC] [Abstract]
    Annotation: posttranslational modification of TCP14/15 by SPY inhibits their proteolysis.Imported.
    Source: GeneRIF:823916.

    This publication is mapped to 5 other entries.

  24. 24
    "Pseudomonas syringae Type III Effector HopBB1 Promotes Host Transcriptional Repressor Degradation to Regulate Phytohormone Responses and Virulence."
    Yang L., Teixeira P.J., Biswas S., Finkel O.M., He Y., Salas-Gonzalez I., English M.E., Epple P., Mieczkowski P., Dangl J.L.
    Cell Host Microbe 21:156-168(2017) [PubMed] [Europe PMC] [Abstract]
    Annotation: TCP14 regulates the plant immune system by transcriptionally repressing a subset of the jasmonic acid (JA) hormone signaling outputs. The Pseudomonas syringae type III effector HopBB1 interacts with TCP14 and targets it to the SCF(COI1) degradation complex by connecting it to the JA signaling repressor JAZ3. HopBB1 de-represses the TCP14-regulated subset of JA response genes and promotes pathogen virulence.Imported.
    Source: GeneRIF:823916.
1 to 24 of 24  Show

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