{"data":[{"Release date":"2021.10.13","Species":"Ambystoma mexicanum","Title":"The single-cell transcriptional landscape of the axolotl","Number of tissues":"19","Number of cells":"1,072,427","Sequencing technology":"CH-RNA-seq","Doi":"https:\/\/doi.org\/10.21203\/rs.3.rs-960203\/v1","Stage":"Adult"},{"Release date":"2017.08.18","Species":"Caenorhabditis elegans","Title":"Comprehensive single-cell transcriptional profiling of a multicellular organism","Number of tissues":"Atlas","Number of cells":"~49,000","Sequencing technology":"sci-RNA-seq ","Doi":"https:\/\/doi.org\/10.1126\/science.aam8940","Stage":"L2 larval"},{"Release date":"2019.07.10","Species":"Ciona intestinalis","Title":"Comprehensive single-cell transcriptome lineages of a proto-vertebrate","Number of tissues":"Atlas","Number of cells":"90,957","Sequencing technology":"10X Genomics","Doi":"https:\/\/doi.org\/10.1038\/s41586-019-1385-y","Stage":"10 stages"},{"Release date":"2021.10.01","Species":"Danio rerio","Title":"Constructing a Zebrafish Cell Landscape Using Microwell-Seq","Number of tissues":"18","Number of cells":">250,000","Sequencing technology":"Microwell-seq","Doi":"https:\/\/doi.org\/10.3389\/fcell.2021.743421","Stage":"24hpf, 72hpf, Adult"},{"Release date":"\/","Species":"Danio rerio","Title":"Construction of a cross-species cell landscape at single-cell level","Number of tissues":">10","Number of cells":"1,035,602","Sequencing technology":"Microwell-seq","Doi":"\/","Stage":"24hpf, 72hpf, 21d, 3m, 22m"},{"Release date":"\/","Species":"Drosophila melanogaster","Title":"Construction of a cross-species cell landscape at single-cell level","Number of tissues":"Atlas","Number of cells":"43,9201","Sequencing technology":"Microwell-seq","Doi":"\/","Stage":"D11, D16, D21, D26, D31, D36, D41"},{"Release date":"2022.04.11","Species":"Eisenia andrei","Title":"Inferring predictive genetic models by deep learning of cross-species single-cell landscapes","Number of tissues":"Atlas","Number of cells":"95,020","Sequencing technology":"Microwell-seq","Doi":"https:\/\/europepmc.org\/article\/ppr\/ppr480256","Stage":"Adult"},{"Release date":"2020.03.25","Species":"Homo sapiens","Title":"Construction of a human cell landscape at single-cell level","Number of tissues":">50","Number of cells":"599,926","Sequencing technology":"Microwell-seq","Doi":"https:\/\/doi.org\/10.1038\/s41586-020-2157-4","Stage":"Fetal, Adult, ES"},{"Release date":"2019.07.26","Species":"Hydra vulgaris","Title":"Stem cell differentiation trajectories in Hydra resolved at single-cell resolution","Number of tissues":"Atlas","Number of cells":"25,052","Sequencing technology":"Drop-seq","Doi":"https:\/\/doi.org\/10.1126\/science.aav9314","Stage":"Adult"},{"Release date":"2022.04.13","Species":"Macaca fascicularis","Title":"Cell transcriptomic atlas of the non-human primate Macaca fascicularis","Number of tissues":"45","Number of cells":"1,144,706\u00a0","Sequencing technology":"DNBelab C Series","Doi":"https:\/\/www.nature.com\/articles\/s41586-022-04587-3","Stage":"Six-year-old"},{"Release date":"\/","Species":"Mus musculus","Title":"Construction of a cross-species cell landscape at single-cell level","Number of tissues":">20","Number of cells":"1,120,794","Sequencing technology":"Microwell-seq","Doi":"\/","Stage":"Stem, E10.5, E12.5, E14.5, Neonatal, 10d, 3w, 6~8w, 12m, 18m, 24m"},{"Release date":"2022.04.11","Species":"Mus musculus","Title":"Systematic identification of cell fate regulatory programs using a single-cell atlas of mouse development","Number of tissues":">20","Number of cells":">520,000","Sequencing technology":"Microwell-seq","Doi":"https:\/\/doi.org\/10.21203\/rs.3.rs-1544600\/v1","Stage":"E10.5, E12.5, E14.5, P0, P10, P21, adult"},{"Release date":"2018.02.01","Species":"Mus musculus","Title":"Mapping the Mouse Cell Atlas by Microwell-Seq","Number of tissues":"51","Number of cells":">400,000 ","Sequencing technology":"Microwell-seq","Doi":"https:\/\/www.cell.com\/cell\/fulltext\/S0092-8674(18)30116-8","Stage":"Stem, E14.5, Neonatal, Adult"},{"Release date":"2018.05.31","Species":"Nematostella vectensis","Title":"Cnidarian Cell Type Diversity and Regulation Revealed by Whole-Organism Single-Cell RNA-Seq","Number of tissues":"Atlas","Number of cells":"11,888","Sequencing technology":"MARS-seq","Doi":"https:\/\/doi.org\/10.1016\/j.cell.2018.05.019","Stage":"Adult"},{"Release date":"2020.03.05","Species":"Rattus norvegicus","Title":"Caloric Restriction Reprograms the Single-Cell Transcriptional Landscape of Rattus Norvegicus Aging","Number of tissues":"9","Number of cells":"166,111","Sequencing technology":"scRNA-seq (10X), snRNA-seq (10X) ","Doi":"https:\/\/doi.org\/10.1016\/j.cell.2020.02.008","Stage":"5-month-old, 27-month-old"},{"Release date":"2018.04.19","Species":"Schmidtea mediterranea","Title":"Cell type transcriptome atlas for the planarian Schmidtea mediterranea","Number of tissues":"Atlas","Number of cells":"66,783","Sequencing technology":"Drop-seq","Doi":"https:\/\/doi.org\/10.1126\/science.aaq1736","Stage":"Adult"},{"Release date":"2021.04.11","Species":"Spongilla lacustris","Title":"Profiling cellular diversity in sponges informs animal cell type and nervous system evolution","Number of tissues":"3","Number of cells":"10,106","Sequencing technology":"10X Genomics","Doi":"https:\/\/doi.org\/10.1126\/science.abj2949","Stage":"8-day-old "},{"Release date":"2022.04.12","Species":"Xenopus laevis","Title":"Cell Atlas of the Xenopus Laevis at Single-Cell Resolution","Number of tissues":"17","Number of cells":">500,000","Sequencing technology":"Microwell-seq","Doi":"https:\/\/doi.org\/10.21203\/rs.3.rs-1544733\/v1","Stage":"NF48, NF54, NF59, NF66"}]}