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277 related items for PubMed ID: 35761189
1. Transcriptomic analysis of tuberous root in two sweet potato varieties reveals the important genes and regulatory pathways in tuberous root development. Cai Z, Cai Z, Huang J, Wang A, Ntambiyukuri A, Chen B, Zheng G, Li H, Huang Y, Zhan J, Xiao D, He L. BMC Genomics; 2022 Jun 27; 23(1):473. PubMed ID: 35761189 [Abstract] [Full Text] [Related]
2. RNA-Seq and iTRAQ reveal multiple pathways involved in storage root formation and development in sweet potato (Ipomoea batatas L.). Dong T, Zhu M, Yu J, Han R, Tang C, Xu T, Liu J, Li Z. BMC Plant Biol; 2019 Apr 11; 19(1):136. PubMed ID: 30971210 [Abstract] [Full Text] [Related]
3. IbMADS1 (Ipomoea batatas MADS-box 1 gene) is involved in tuberous root initiation in sweet potato (Ipomoea batatas). Ku AT, Huang YS, Wang YS, Ma D, Yeh KW. Ann Bot; 2008 Jul 11; 102(1):57-67. PubMed ID: 18463111 [Abstract] [Full Text] [Related]
4. Transcriptome profiling reveals the genes involved in tuberous root expansion in Pueraria (Pueraria montana var. thomsonii). Xufeng X, Yuanfeng H, Ming Z, Shucheng S, Haonan Z, Weifeng Z, Fei G, Caijun W, Shuying F. BMC Plant Biol; 2023 Jun 26; 23(1):338. PubMed ID: 37365513 [Abstract] [Full Text] [Related]
5. Starch content differences between two sweet potato accessions are associated with specific changes in gene expression. Yang S, Liu X, Qiao S, Tan W, Li M, Feng J, Zhang C, Kang X, Huang T, Zhu Y, Yang L, Wang D. Funct Integr Genomics; 2018 Nov 26; 18(6):613-625. PubMed ID: 29754269 [Abstract] [Full Text] [Related]
6. De novo assembly and characterization of root transcriptome using Illumina paired-end sequencing and development of cSSR markers in sweet potato (Ipomoea batatas). Wang Z, Fang B, Chen J, Zhang X, Luo Z, Huang L, Chen X, Li Y. BMC Genomics; 2010 Dec 24; 11():726. PubMed ID: 21182800 [Abstract] [Full Text] [Related]
7. Functional genomics by integrated analysis of transcriptome of sweet potato (Ipomoea batatas (L.) Lam.) during root formation. Kim S, Nie H, Jun B, Kim J, Lee J, Kim S, Kim E, Kim S. Genes Genomics; 2020 May 24; 42(5):581-596. PubMed ID: 32240514 [Abstract] [Full Text] [Related]
8. Dynamic network biomarker analysis discovers IbNAC083 in the initiation and regulation of sweet potato root tuberization. He S, Wang H, Hao X, Wu Y, Bian X, Yin M, Zhang Y, Fan W, Dai H, Yuan L, Zhang P, Chen L. Plant J; 2021 Nov 24; 108(3):793-813. PubMed ID: 34460981 [Abstract] [Full Text] [Related]
9. Proteomic approach reveals that starch degradation contributes to anthocyanin accumulation in tuberous root of purple sweet potato. Wang S, Pan D, Lv X, Song X, Qiu Z, Huang C, Huang R, Chen W. J Proteomics; 2016 Jun 30; 143():298-305. PubMed ID: 26957144 [Abstract] [Full Text] [Related]
10. Comparative Transcriptome Analysis Reveals the Transcriptional Alterations in Growth- and Development-Related Genes in Sweet Potato Plants Infected and Non-Infected by SPFMV, SPV2, and SPVG. Shi J, Zhao L, Yan B, Zhu Y, Ma H, Chen W, Ruan S. Int J Mol Sci; 2019 Feb 26; 20(5):. PubMed ID: 30813603 [Abstract] [Full Text] [Related]
11. Comparative analysis of full-length transcriptomes based on hybrid population reveals regulatory mechanisms of anthocyanin biosynthesis in sweet potato (Ipomoea batatas (L.) Lam). Qin Z, Hou F, Li A, Dong S, Huang C, Wang Q, Zhang L. BMC Plant Biol; 2020 Jun 29; 20(1):299. PubMed ID: 32600332 [Abstract] [Full Text] [Related]
12. Differential expression pattern of novel MADS-box genes in early root formation and differentiation of sweet potato. Kim JS, Jang M, Nie H, Lee J, Hong E, Kim SJ, Kim SH. Gene Expr Patterns; 2022 Mar 29; 43():119216. PubMed ID: 34798351 [Abstract] [Full Text] [Related]
13. Molecular Characterization and Target Prediction of Candidate miRNAs Related to Abiotic Stress Responses and/or Storage Root Development in Sweet Potato. Sun L, Yang Y, Pan H, Zhu J, Zhu M, Xu T, Li Z, Dong T. Genes (Basel); 2022 Jan 06; 13(1):. PubMed ID: 35052451 [Abstract] [Full Text] [Related]
14. Transcriptome Analysis Reveals Genes and Pathways Associated with Drought Tolerance of Early Stages in Sweet Potato (Ipomoea batatas (L.) Lam.). Cheng P, Kong F, Han Y, Liu X, Xia J. Genes (Basel); 2024 Jul 19; 15(7):. PubMed ID: 39062727 [Abstract] [Full Text] [Related]
15. [Functional analysis on sucrose transporters in sweet potato]. Liu Y, Wu Z, Wu W, Yang C, Chen C, Zhang K. Sheng Wu Gong Cheng Xue Bao; 2023 Jul 25; 39(7):2772-2793. PubMed ID: 37584131 [Abstract] [Full Text] [Related]
16. De novo sequencing and a comprehensive analysis of purple sweet potato (Impomoea batatas L.) transcriptome. Xie F, Burklew CE, Yang Y, Liu M, Xiao P, Zhang B, Qiu D. Planta; 2012 Jul 25; 236(1):101-13. PubMed ID: 22270559 [Abstract] [Full Text] [Related]
17. Temporal patterns of gene expression associated with tuberous root formation and development in sweetpotato (Ipomoea batatas). Wang Z, Fang B, Chen X, Liao M, Chen J, Zhang X, Huang L, Luo Z, Yao Z, Li Y. BMC Plant Biol; 2015 Jul 16; 15():180. PubMed ID: 26174091 [Abstract] [Full Text] [Related]
18. Identification of genes possibly related to storage root induction in sweet potato. You MK, Hur CG, Ahn YS, Suh MC, Jeong BC, Shin JS, Bae JM. FEBS Lett; 2003 Feb 11; 536(1-3):101-5. PubMed ID: 12586346 [Abstract] [Full Text] [Related]
19. Plastidial Phosphoglucomutase (pPGM) Overexpression Increases the Starch Content of Transgenic Sweet Potato Storage Roots. Wang Y, Zhang H, Li Y, Zhang Q, Liu Q, Zhai H, Zhao N, Yang Y, He S. Genes (Basel); 2022 Nov 28; 13(12):. PubMed ID: 36553501 [Abstract] [Full Text] [Related]
20. Genome-Wide Identification and Analysis of SUS and AGPase Family Members in Sweet Potato: Response to Excessive Nitrogen Stress during Storage Root Formation. Han S, Lin Y, Meng Y, Si C. Int J Mol Sci; 2024 Jul 28; 25(15):. PubMed ID: 39125807 [Abstract] [Full Text] [Related] Page: [Next] [New Search]