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1. 栽培花生Aux/IAA家族鉴定与生物信息学分析 [278]
2. The F-box protein SlSAP1 and SlSAP2 redundantly control leaf and f.. [256]
3. Genome-Wide Identification and Expression Analysis of the VILLIN G.. [255]
4. WOX9 functions antagonistic to STF and LAM1 to regulate leaf blade.. [252]
5. Genome-Wide Identification, Evolutionary Analysis and Expression P.. [235]
6. Genomic and structural basis for evolution of tropane alkaloid bio.. [235]
7. Multidimensional analysis of long noncoding RNAs function in Solan.. [228]
8. A molecular framework underlying the compound leaf pattern of Medi.. [220]
9. Systemic Analyses of Anti-Cell-Senescence Active Compounds in Came.. [216]
10. beta-Ketoacyl-acyl Carrier Protein Synthase I (KASI) Plays Crucial.. [214]
11. Discovery and Engineering of the Cocaine Biosynthetic Pathway [214]
12. The geometry of the compound leaf plays a significant role in the .. [209]
13. The F-box protein MIO1/SLB1 regulates organ size and leaf movement.. [207]
14. Fe3O4@SiO2@CuZnAl-O Catalysts for Conversion of Lignin in Supercri.. [197]
15. Genome-Wide Identification and Expression Analysis of the PHD Fing.. [193]
16. The Organ Size and Morphological Change During the Domestication P.. [191]
17. The Pea R2R3-MYB Gene Family and Its Role in Anthocyanin Biosynthe.. [169]
18. Cloning and Functional Analysis of Dwarf GeneMini Plant 1(MNP1) in.. [168]
19. Unveiling the catalytical roles of three glycosyltransferases in t.. [168]
20. Genome-Wide Characterization of PEBP Gene Family and Functional An.. [160]
21. HEADLESS, a WUSCHEL homolog, uncovers novel aspects of shoot meris.. [156]
22. Magnesium promotes root growth and increases aluminum tolerance vi.. [153]
23. Sorghum SbGhd7 is a major regulator of floral transition and direc.. [132]
24. The Genetic Control of the Compound Leaf Patterning in Medicago tr.. [131]
25. Decoding the Cytochrome P450 Catalytic Activity in Divergence of B.. [121]
26. Synergistic effects of GmLFYa and GmLFYb on Compound Leaf Developm.. [117]
27. Epigenetic modifications: Allusive clues of lncRNA functions in pl.. [115]
28. 豌豆TCP基因家族的鉴定与分析 [111]
29. Genome-Wide Characterization of the INDETERMINATE DOMAIN (IDD) Zin.. [109]
30. The MIO1-MtKIX8 module regulates the organ size in Medicago trunca.. [98]
31. Control of compound leaf patterning by MULTI-PINNATE LEAF1 (MPL1) .. [98]
32. GRAS transcription factor PINNATE-LIKE PENTAFOLIATA2 controls comp.. [87]
33. HEADLESS represses a CYP735 monooxygenase gene and promotes iP-typ.. [83]
34. An R2R3 MYB transcription factor PsFLP regulates the symmetric div.. [80]
35. 蒺藜苜蓿PINNA2基因的突变基因 [56]
36. 具有正向调控植株侧生器官大小的INP1基因及其同源基因 [50]
37. 调控植物半矮化株型和叶比值的CLL1基因及其豆科的直系同源基因的应用 [39]
38. Evolutionary Conservation and Regulatory Diversification of AS1 Ho.. [7]
39. A unified cell atlas of vascular plants reveals cell-type foundati.. [4]
40. Multilayered regulatory control of compound leaf development [2]

Downloads

1. The F-box protein SlSAP1 and SlSAP2 redundantly control leaf and f.. [177]
2. Genome-Wide Identification and Expression Analysis of the VILLIN G.. [160]
3. 栽培花生Aux/IAA家族鉴定与生物信息学分析 [158]
4. Systemic Analyses of Anti-Cell-Senescence Active Compounds in Came.. [157]
5. Multidimensional analysis of long noncoding RNAs function in Solan.. [157]
6. Discovery and Engineering of the Cocaine Biosynthetic Pathway [150]
7. The Organ Size and Morphological Change During the Domestication P.. [141]
8. Genomic and structural basis for evolution of tropane alkaloid bio.. [141]
9. Genome-Wide Identification and Expression Analysis of the PHD Fing.. [140]
10. The Pea R2R3-MYB Gene Family and Its Role in Anthocyanin Biosynthe.. [130]
11. The geometry of the compound leaf plays a significant role in the .. [117]
12. WOX9 functions antagonistic to STF and LAM1 to regulate leaf blade.. [112]
13. Genome-Wide Characterization of PEBP Gene Family and Functional An.. [111]
14. The F-box protein MIO1/SLB1 regulates organ size and leaf movement.. [105]
15. Unveiling the catalytical roles of three glycosyltransferases in t.. [97]
16. The Genetic Control of the Compound Leaf Patterning in Medicago tr.. [85]
17. A molecular framework underlying the compound leaf pattern of Medi.. [84]
18. Decoding the Cytochrome P450 Catalytic Activity in Divergence of B.. [83]
19. Genome-Wide Identification, Evolutionary Analysis and Expression P.. [74]
20. Fe3O4@SiO2@CuZnAl-O Catalysts for Conversion of Lignin in Supercri.. [74]
21. Sorghum SbGhd7 is a major regulator of floral transition and direc.. [74]
22. Cloning and Functional Analysis of Dwarf GeneMini Plant 1(MNP1) in.. [73]
23. Epigenetic modifications: Allusive clues of lncRNA functions in pl.. [71]
24. 豌豆TCP基因家族的鉴定与分析 [59]
25. Magnesium promotes root growth and increases aluminum tolerance vi.. [58]
26. The MIO1-MtKIX8 module regulates the organ size in Medicago trunca.. [55]
27. beta-Ketoacyl-acyl Carrier Protein Synthase I (KASI) Plays Crucial.. [54]
28. Genome-Wide Characterization of the INDETERMINATE DOMAIN (IDD) Zin.. [52]
29. Control of compound leaf patterning by MULTI-PINNATE LEAF1 (MPL1) .. [44]
30. Synergistic effects of GmLFYa and GmLFYb on Compound Leaf Developm.. [43]
31. HEADLESS represses a CYP735 monooxygenase gene and promotes iP-typ.. [38]
32. GRAS transcription factor PINNATE-LIKE PENTAFOLIATA2 controls comp.. [23]
33. An R2R3 MYB transcription factor PsFLP regulates the symmetric div.. [21]
34. HEADLESS, a WUSCHEL homolog, uncovers novel aspects of shoot meris.. [20]
35. A unified cell atlas of vascular plants reveals cell-type foundati.. [3]
36. Multilayered regulatory control of compound leaf development [2]
37. Evolutionary Conservation and Regulatory Diversification of AS1 Ho.. [2]