Del Sol Antonio相关文献与解析，生知库 | 链接生命科学的每一步

Menacho, Carmen; Okawa, Satoshi; Álvarez-Merz, Iris; Wittich, Annika; Muñoz-Oreja, Mikel; Lisowski, Pawel; Martín, Mario López; Pentimalli, Tancredi Massimo; Zakin, Shiri; Thevandavakkam, Mathuravani; Jerred, Caleb; Lickfett, Selene; Petersilie, Laura; Rybak-Wolf, Agnieszka; Seibt, Annette; Herebian, Diran; Inak, Gizem; Brodesser, Susanne; Zaliani, Andrea; Mlody, Barbara; Donnelly, Justin; Woleben, Kasey; Soriano, Francesc Xavier; Fernandez-Checa, Jose C; Ventura, Natascia; Cambridge, Sidney; Mayatepek, Ertan; Spinazzola, Antonella; Schuelke, Markus; Rajewsky, Nikolaus; Rossi, Andrea; Peralvarez-Marin, Alex; Distelmaier, Felix; Perlstein, Ethan; Holt, Ian J; Puighermanal, Emma; Pless, Ole; Rose, Christine R; Del Sol, Antonio; Prigione, Alessandro

3D/类器官

神经科学

发表日期：2026

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Plagl1 regulates the retinal progenitor cell to MÃ¼ller glial cell transition.

Plagl1 调控视网膜祖细胞向 Müller 胶质细胞的转变。

期刊:PLoS Genetics

影响因子:3.7

doi:10.1371/journal.pgen.1012020

Touahri Yacine, Pak Alissa, David Luke Ajay, Hanna Joseph, Liu Hedy, Xiao Yucheng, Belfiore Lauren, Ilnytskyy Yaroslav, van Oosten Edwin, Tachibana Nobuhiko, Adnani Lata, Zhao Jiayi, Hoffman Mary, Dixit Rajiv, Zinyk Dawn, Guidos Cynthia J, Enzmann Volker, Bi Pengpeng, Aubert Isabelle, Journot Laurent, Kovalchuk Igor, SauvÃ© Yves, Biernaskie Jeff, Wang Chao, Okawa Satoshi, Del Sol Antonio, Schuurmans Carol

A Machine-Learning Approach Identifies Rejuvenating Interventions in the Human Brain

机器学习方法识别出人脑的再生干预措施

期刊:Advanced Science

影响因子:14.1

doi:10.1002/advs.202503344

Santamaria, Guillem; Iglesias, Cristina; Jung, Sascha; Arcos Hodar, Javier; Nogueiras, Ruben; Del Sol, Antonio

Glycolytic flux controls retinal progenitor cell differentiation via regulating Wnt signaling.

糖酵解通量通过调节 Wnt 信号通路控制视网膜祖细胞分化

期刊:Elife

影响因子:6.4

doi:10.7554/eLife.100604

Hanna Joseph, Touahri Yacine, Pak Alissa, Belfiore Lauren, van Oosten Edwin, David Luke Ajay, Han Sisu, Ilnytskyy Yaroslav, Kovalchuk Igor, Kurrasch Deborah, Okawa Satoshi, Del Sol Antonio, Screaton Robert A, Aubert Isabelle, Schuurmans Carol

MicroRNA-mediated neuronal detargeting alters astrocyte cell fate conversion trajectories in vivo.

MicroRNA介导的神经元去靶向作用改变了体内星形胶质细胞的命运转化轨迹。

期刊:Communications Biology

影响因子:5.1

doi:10.1038/s42003-025-09169-3

Ghazale Hussein, Parga Pazos Martin, Jung Sascha, Cao Ke, Vasan Lakshmy, Hickmott Jack W, Zhang Linghe, Morshead Cindi M, Wang Chao, Del Sol Antonio, Schuurmans Carol

REVIVE: a computational platform for systematically identifying rejuvenating chemical and genetic perturbations

REVIVE：一个用于系统识别具有再生作用的化学和基因扰动的计算平台

期刊:Aging-Us

影响因子:3.9

doi:10.18632/aging.206342

Jung, Sascha; Hodar, Javier Arcos; Badam, Tejwasi Venkata S; Del Sol, Antonio

发表日期：2025

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Data-driven inference of Boolean networks from transcriptomes to predict cellular differentiation and reprogramming.

利用转录组数据推断布尔网络，预测细胞分化和重编程。

期刊:npj Systems Biology and Applications

影响因子:3.5

doi:10.1038/s41540-025-00569-z

Chevalier StÃ©phanie, Becker Julia, Gui Yujuan, NoÃ«l Vincent, Su Cui, Jung Sascha, Calzone Laurence, Zinovyev Andrei, Del Sol Antonio, Pang Jun, Sinkkonen Lasse, Sauter Thomas, PaulevÃ© LoÃ¯c

细胞生物学

发表日期：2025

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Defined human tri-lineage brain microtissues.

已定义的人类三系脑微组织

期刊:

影响因子:

doi:10.1101/2025.08.05.668605

Uenaka Takeshi, Jung Sascha, Kumar Ishan, Vodehnal Kit, Rastogi Mohit, Yoo Yongjin, Koontz Mark, Thome Christian, Li Wanhua, Chan Tamara, Green Erin M, Chesnov Kirill, Sun Zijun, Zhang Shuyuan, Wang Jinzhao, Venida Anthony, Mellier Anne-Laure Mahul, Atkins Micaiah, Jackrel Meredith, Skotheim Jan M, Wyss-Coray Tony, Abu-Remaileh Monther, Lashuel Hilal A, Bassik Michael C, SÃ¼dhof Thomas C, Del Sol Antonio, Ullian Erik, Wernig Marius

Human

发表日期：2025

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Detecting expressed genes in cell populations at the single-cell level with scGeneXpress

利用scGeneXpress在单细胞水平上检测细胞群体中表达的基因

期刊:Briefings in Bioinformatics

影响因子:7.7

doi:10.1093/bib/bbae494

Jung, Sascha; Barlier, Céline; Martinez Perez, Aitor; Del Sol, Antonio

SinCMat: A single-cell-based method for predicting functional maturation transcription factors

SinCMat：一种基于单细胞的预测功能成熟转录因子的方法

期刊:Stem Cell Reports

影响因子:5.1

doi:10.1016/j.stemcr.2023.12.006

Barvaux, Sybille; Okawa, Satoshi; Del Sol, Antonio

Accelerating Leigh syndrome drug discovery through deep learning screening in brain organoids

利用脑类器官深度学习筛选加速莱氏综合征药物研发

Plagl1 regulates the retinal progenitor cell to MÃ¼ller glial cell transition.

Plagl1 调控视网膜祖细胞向 Müller 胶质细胞的转变。

A Machine-Learning Approach Identifies Rejuvenating Interventions in the Human Brain

机器学习方法识别出人脑的再生干预措施

Glycolytic flux controls retinal progenitor cell differentiation via regulating Wnt signaling.

糖酵解通量通过调节 Wnt 信号通路控制视网膜祖细胞分化

MicroRNA-mediated neuronal detargeting alters astrocyte cell fate conversion trajectories in vivo.

MicroRNA介导的神经元去靶向作用改变了体内星形胶质细胞的命运转化轨迹。

REVIVE: a computational platform for systematically identifying rejuvenating chemical and genetic perturbations

REVIVE：一个用于系统识别具有再生作用的化学和基因扰动的计算平台

Data-driven inference of Boolean networks from transcriptomes to predict cellular differentiation and reprogramming.

利用转录组数据推断布尔网络，预测细胞分化和重编程。

Defined human tri-lineage brain microtissues.

已定义的人类三系脑微组织

Detecting expressed genes in cell populations at the single-cell level with scGeneXpress

利用scGeneXpress在单细胞水平上检测细胞群体中表达的基因

SinCMat: A single-cell-based method for predicting functional maturation transcription factors

SinCMat：一种基于单细胞的预测功能成熟转录因子的方法