From Single Cells to Flowers – Biological Complexity Driving Plant Reproductive Development
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T. Vernoux | K. Kaufmann | S. Marquardt | L. Colombo | Manuela Neumann | Jian Xu | Isabel Schwarz | Xiaocai Xu | Rosario Vega | Letizia Cornaro
[1] N. Blüthgen,et al. A 3D gene expression atlas of the floral meristem based on spatial reconstruction of single nucleus RNA sequencing data , 2021, Nature Communications.
[2] Albin Sandelin,et al. TrancriptomeReconstructoR: data-driven annotation of complex transcriptomes , 2020, BMC Bioinformatics.
[3] R. Shaw,et al. Single-Cell Transcriptome Analysis in Plants: Advances and Challenges. , 2020, Molecular plant.
[4] K. Kaufmann,et al. Long non-coding RNAs in plants: emerging modulators of gene activity in development and stress responses , 2020, Planta.
[5] F. Hamprecht,et al. A digital 3D reference atlas reveals cellular growth patterns shaping the Arabidopsis ovule , 2020, bioRxiv.
[6] Evan M. Cofer,et al. DeepArk: modeling cis-regulatory codes of model species with deep learning , 2020, bioRxiv.
[7] S. Marquardt,et al. A G(enomic)P(ositioning)S(ystem) for Plant RNAPII Transcription. , 2020, Trends in plant science.
[8] Craig D. Kaplan,et al. Organismal benefits of transcription speed control at gene boundaries , 2020, EMBO reports.
[9] V. Pelechano,et al. Transcript isoform sequencing reveals widespread promoter-proximal transcriptional termination in Arabidopsis , 2019, Nature Communications.
[10] Nir Friedman,et al. Gene expression cartography , 2019, Nature.
[11] Peter Kindgren,et al. Native elongation transcript sequencing reveals temperature dependent dynamics of nascent RNAPII transcription in Arabidopsis , 2019, bioRxiv.
[12] Vivien Marx,et al. A dream of single-cell proteomics , 2019, Nature Methods.
[13] S. Rhee,et al. Towards Building a Plant Cell Atlas. , 2019, Trends in plant science.
[14] Yan Li,et al. Single-Cell Heterogeneity Analysis and CRISPR Screen Identify Key β-Cell-Specific Disease Genes. , 2019, Cell reports.
[15] S. Waidmann,et al. Faculty Opinions recommendation of Single-Cell RNA Sequencing Resolves Molecular Relationships Among Individual Plant Cells. , 2019, Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature.
[16] Eleazar Eskin,et al. Cell-type-specific resolution epigenetics without the need for cell sorting or single-cell biology , 2018, Nature Communications.
[17] Ziv Bar-Joseph,et al. Deep learning for inferring gene relationships from single-cell expression data , 2019, Proceedings of the National Academy of Sciences.
[18] Christoph Hafemeister,et al. Comprehensive integration of single cell data , 2018, bioRxiv.
[19] Chandra L. Theesfeld,et al. Deep learning sequence-based ab initio prediction of variant effects on expression and disease risk , 2018, Nature Genetics.
[20] Paul Hoffman,et al. Integrating single-cell transcriptomic data across different conditions, technologies, and species , 2018, Nature Biotechnology.
[21] C. Dean,et al. The FLC Locus: A Platform for Discoveries in Epigenetics and Adaptation. , 2017, Annual review of cell and developmental biology.
[22] O. Stegle,et al. Single-cell epigenomics: Recording the past and predicting the future , 2017, Science.
[23] M. Schmid,et al. Temporal dynamics of gene expression and histone marks at the Arabidopsis shoot meristem during flowering , 2017, Nature Communications.
[24] Catharina Merchante,et al. Translation regulation in plants: an interesting past, an exciting present and a promising future. , 2017, The Plant journal : for cell and molecular biology.
[25] A. Murad,et al. MicroRNA and Transcription Factor: Key Players in Plant Regulatory Network , 2017, Front. Plant Sci..
[26] I. Amit,et al. Single-cell spatial reconstruction reveals global division of labor in the mammalian liver , 2016, Nature.
[27] W. Wasserman,et al. Genome-wide prediction of cis-regulatory regions using supervised deep learning methods , 2016, bioRxiv.
[28] R. Blanvillain,et al. Gene activation and cell fate control in plants: a chromatin perspective , 2014, Cellular and Molecular Life Sciences.
[29] Kerstin Kaufmann,et al. Regulation of transcription in plants: mechanisms controlling developmental switches , 2010, Nature Reviews Genetics.