37908495 | Clarifying the Temporal Dynamics of the Circadian Clock and Flowering Gene Network Using Overexpression and Targeted Mutagenesis of Soybean EARLY FLOWERING 3-1 ( GmELF3-1 ). | Alcantara M, Iftikhar H, Kagan K, Dzheyranyan D, Abbasi P, Alamilla A, Ayala N, Baca T, Benoit V, Clausen N, Coto C, Guerrero C, Hernandez Catalan E, Hurtado S, Lopez A, Lopez J, Majarian N, Mesfin N, Mishegyan A, Mkrtchyan G, Ordonez A, Pachanyan A, Pelayo T, Rosas A, Rowsey K, Sharma E, Sharma S, Van Grinsven S, Hanzawa Y. | MicroPubl Biol 2023 2023 |
37951242 | early maturity 7 promotes early flowering by controlling the light input into the circadian clock in barley. | Helmsorig G, Walla A, Rütjes T, Buchmann G, Schüller R, Hensel G, von Korff M. | Plant Physiol 194 (2) 2024 |
38481435 | Light quality-dependent roles of REVEILLE proteins in the circadian system. | Hughes CL, An Y, Maloof JN, Harmer SL. | Plant Direct 8 (3) 2024 |
PPR632595 | Molecular basis of polyglutamine-modulated ELF3 phase change in Arabidopsis temperature response | Lindsay RJ, Wigge PA, Hanson SM. | preprint (2023) |
38386103 | Unlocking allelic variation in circadian clock genes to develop environmentally robust and productive crops. | Dwivedi SL, Quiroz LF, Spillane C, Wu R, Mattoo AK, Ortiz R. | Planta 259 (4) 2024 |
38069157 | The Roles of the PSEUDO-RESPONSE REGULATORs in Circadian Clock and Flowering Time in Medicago truncatula. | Wang X, Zhang J, Liu X, Kong Y, Han L. | Int J Mol Sci 24 (23) 2023 |
38255990 | The Roles of Circadian Clock Genes in Plant Temperature Stress Responses. | Jang J, Lee S, Kim JI, Lee S, Kim JA. | Int J Mol Sci 25 (2) 2024 |
35191492 | Cellular localization of Arabidopsis EARLY FLOWERING3 is responsive to light quality. | Ronald J, Su C, Wang L, Davis SJ. | Plant Physiol 190 (2) 2022 |
35603836 | REVEILLE 7 inhibits the expression of the circadian clock gene EARLY FLOWERING 4 to fine-tune hypocotyl growth in response to warm temperatures. | Tian YY, Li W, Wang MJ, Li JY, Davis SJ, Liu JX. | J Integr Plant Biol 64 (7) 2022 |
38254983 | GIGANTEA Unveiled: Exploring Its Diverse Roles and Mechanisms. | Liu L, Xie Y, Yahaya BS, Wu F. | Genes (Basel) 15 (1) 2024 |
36814117 | GIGANTEA-ENHANCED EM LEVEL complex initiates drought escape response via dual function of ABA synthesis and flowering promotion. | Bader ZE, Bae MJ, Ali A, Park J, Baek D, Yun DJ. | Plant Signal Behav 18 (1) 2023 |
35325228 | Evolution of circadian clocks along the green lineage. | Petersen J, Rredhi A, Szyttenholm J, Mittag M. | Plant Physiol 190 (2) 2022 |
37481743 | Environmental F actors coordinate circadian clock function and rhythm to regulate plant development. | Zhang Y, Ma Y, Zhang H, Xu J, Gao X, Zhang T, Liu X, Guo L, Zhao D. | Plant Signal Behav 18 (1) 2023 |
38344182 | Functional dissection of phytochrome A in plants. | Lei Y, Ma Q, Zhang Y, Li J, Ning X, Wang Y, Ge X, Zhao H, Lin H. | Front Plant Sci 15 2024 |
36028981 | A competition-attenuation mechanism modulates thermoresponsive growth at warm temperatures in plants. | Li W, Tian YY, Li JY, Yuan L, Zhang LL, Wang ZY, Xu X, Davis SJ, Liu JX. | New Phytol 237 (1) 2023 |
37676570 | LNKs-RVEs complex ticks in the circadian gating of plant temperature stress responses. | Xu X, Xie Q. | Stress Biol 3 (1) 2023 |
38585015 | Flowering genes identification, network analysis, and database construction for 837 plants. | Wu T, Liu Z, Yu T, Zhou R, Yang Q, Cao R, Nie F, Ma X, Bai Y, Song X. | Hortic Res 11 (4) 2024 |
37811362 | Myb-like transcription factors have epistatic effects on circadian clock function but additive effects on plant growth. | Hughes CL, Harmer SL. | Plant Direct 7 (10) 2023 |
38248329 | Genome-Wide Identification and Expression Analyses of the FAR1/FHY3 Gene Family Provide Insight into Inflorescence Development in Maize. | Tang H, Jing, Liu C, Xie X, Zhang L, Chen X, Li C. | Curr Issues Mol Biol 46 (1) 2024 |
PMC10671209 | Characteristics and Functions of MYB (v-Myb avivan myoblastsis virus oncogene homolog)-Related Genes in Arabidopsis thaliana | | Genes (Basel) 14 (11) 2023 |
37789264 | Genome-wide analysis of blueberry B-box family genes and identification of members activated by abiotic stress. | Liu X, Sun W, Ma B, Song Y, Guo Q, Zhou L, Wu K, Zhang X, Zhang C. | BMC Genomics 24 (1) 2023 |
37940838 | Genome-wide identification and molecular expression profile analysis of FHY3/FAR1 gene family in walnut (Juglans sigillata L.) development. | Chen S, Chen Y, Liang M, Qu S, Shen L, Zeng Y, Hou N. | BMC Genomics 24 (1) 2023 |
37836084 | Comparative Analysis of Circadian Transcriptomes Reveals Circadian Characteristics between Arabidopsis and Soybean. | Wang X, Hu Y, Wang W. | Plants (Basel) 12 (19) 2023 |
37567911 | Characterizing the circadian connectome of Ocimum tenuiflorum using an integrated network theoretic framework. | Singh V, Singh V. | Sci Rep 13 (1) 2023 |
37391536 | Dim artificial light at night alters gene expression rhythms and growth in a key seagrass species (Posidonia oceanica). | Dalle Carbonare L, Basile A, Rindi L, Bulleri F, Hamedeh H, Iacopino S, Shukla V, Weits DA, Lombardi L, Sbrana A, Benedetti-Cecchi L, Giuntoli B, Licausi F, Maggi E. | Sci Rep 13 (1) 2023 |
37936225 | Phytochromes transmit photoperiod information via the evening complex in Brachypodium. | Gao M, Lu Y, Geng F, Klose C, Staudt AM, Huang H, Nguyen D, Lan H, Lu H, Mockler TC, Nusinow DA, Hiltbrunner A, Schäfer E, Wigge PA, Jaeger KE. | Genome Biol 24 (1) 2023 |
37676326 | PIFs- and COP1-HY5-mediated temperature signaling in higher plants. | Bian Y, Chu L, Lin H, Qi Y, Fang Z, Xu D. | Stress Biol 2 (1) 2022 |
35822517 | GIGANTEA regulates lateral root formation by modulating auxin signaling in Arabidopsis thaliana. | Singh A. | Plant Signal Behav 17 (1) 2022 |
37699055 | Systematic characterization of photoperiodic gene expression patterns reveals diverse seasonal transcriptional systems in Arabidopsis. | Leung CC, Tarté DA, Oliver LS, Wang Q, Gendron JM. | PLoS Biol 21 (9) 2023 |
36290383 | Red Light Resets the Expression Pattern, Phase, and Period of the Circadian Clock in Plants: A Computational Approach. | Huang T, Shui Y, Wu Y, Hou X, You X. | Biology (Basel) 11 (10) 2022 |
37175398 | Study on the Flower Induction Mechanism of Hydrangea macrophylla. | Liu Y, Lyu T, Lyu Y. | Int J Mol Sci 24 (9) 2023 |
37995186 | Circadian clock factors regulate the first condensation reaction of fatty acid synthesis in Arabidopsis. | Kim SC, Edgeworth KN, Nusinow DA, Wang X. | Cell Rep 42 (12) 2023 |
PPR763710 | Crosstalk between salicylic acid signaling and the circadian clock promotes an effective immune response | Fraser O, Cargill SJ, Spoel SH, van Ooijen G. | preprint (2023) |
35621186 | N6-methyladenosine-modified RNA acts as a molecular glue that drives liquid-liquid phase separation in plants. | Lee HG, Kim J, Seo PJ. | Plant Signal Behav 17 (1) 2022 |
36690685 | Limited water stress modulates expression of circadian clock genes in Brachypodium distachyon roots. | Gombos M, Hapek N, Kozma-Bognár L, Grezal G, Zombori Z, Kiss E, Györgyey J. | Sci Rep 13 (1) 2023 |
37323229 | Low light intensity elongates period and defers peak time of photosynthesis: a computational approach to circadian-clock-controlled photosynthesis in tomato. | Huang T, Liu H, Tao JP, Zhang JQ, Zhao TM, Hou XL, Xiong AS, You X. | Hortic Res 10 (6) 2023 |
38383610 | Epigenetic variation in early and late flowering plants of the rubber-producing Russian dandelion Taraxacum koksaghyz provides insights into the regulation of flowering time. | Roelfs KU, Känel A, Twyman RM, Prüfer D, Schulze Gronover C. | Sci Rep 14 (1) 2024 |
38319968 | The interplay between the circadian clock and abiotic stress responses mediated by ABF3 and CCA1/LHY. | Liang T, Yu S, Pan Y, Wang J, Kay SA. | Proc Natl Acad Sci U S A 121 (7) 2024 |
35512209 | Circadian entrainment in Arabidopsis. | Wang S, Steed G, Webb AAR. | Plant Physiol 190 (2) 2022 |
36909399 | Regulatory mechanism of MeGI on sexuality in Diospyros oleifera. | Mai Y, Sun P, Suo Y, Li H, Han W, Diao S, Wang L, Yuan J, Wang Y, Ye L, Zhang Y, Li F, Fu J. | Front Plant Sci 14 2023 |
34919115 | Flowering process in soybean under water deficit conditions: A review on genetic aspects. | Molinari MDC, Fuganti-Pagliarini R, Barbosa DA, Marin SRR, Marin DR, Rech EL, Mertz-Henning LM, Nepomuceno AL. | Genet Mol Biol 45 (1) 2021 |
IND607197767 | Molecular and functional dissection of EARLY-FLOWERING 3 (ELF3) and ELF4 in Arabidopsis | Zhao H, Xu D, Tian T, Kong F, Lin K, Gan S, Zhang H, Li G. | Plant Sci 303 2021 |
PPR253231 | Cloning and Functional Verification of Gene GmELF4-LIKE4 in Soybean [Glycine max (L.) Merr] | Jin Y, Zhao H, Lamboro A, Xiao Z, Zhang Q, Guan S, Qu J, Zhao R, Wang P. | preprint (2020) |
38094025 | Transcriptome analysis of Saposhnikovia divaricata and mining of bolting and flowering genes. | Zhang M, Wang W, Liu Q, Zang E, Wu L, Hu G, Li M. | Chin Herb Med 15 (4) 2023 |
38592871 | Transcriptome Analysis of Intermittent Light Induced Early Bolting in Flowering Chinese Cabbage. | Hu C, Sun D, Yu J, Chen M, Xue Y, Wang J, Su W, Chen R, Anwar A, Song S. | Plants (Basel) 13 (6) 2024 |
35116135 | Systems scale characterization of circadian rhythm pathway in Camellia sinensis. | Singh G, Singh V, Singh V. | Comput Struct Biotechnol J 20 2022 |
34618097 | EARLY FLOWERING3 sub-nuclear localization responds to changes in ambient temperature. | Ronald J, Wilkinson AJ, Davis SJ. | Plant Physiol 187 (4) 2021 |
35965321 | SUPPRESSOR OF PHYTOCHROME B-4 #3 reduces the expression of PIF-activated genes and increases expression of growth repressors to regulate hypocotyl elongation in short days. | Jacques CN, Favero DS, Kawamura A, Suzuki T, Sugimoto K, Neff MM. | BMC Plant Biol 22 (1) 2022 |
33487361 | Molecular and functional dissection of EARLY-FLOWERING 3 (ELF3) and ELF4 in Arabidopsis. | Zhao H, Xu D, Tian T, Kong F, Lin K, Gan S, Zhang H, Li G. | Plant Sci 303 2021 |
36840246 | Photoperiod Genes Contribute to Daylength-Sensing and Breeding in Rice. | Qiu L, Zhou P, Wang H, Zhang C, Du C, Tian S, Wu Q, Wei L, Wang X, Zhou Y, Huang R, Huang X, Ouyang X. | Plants (Basel) 12 (4) 2023 |