日期 影响因子
日期:
2020 年 — 2026 年
2020
2021
2022
2023
2024
2025
2026
影响因子:

Cellularization in chytrid fungi uses distinct mechanisms from conventional cytokinesis and cellularization in animals and yeast

壶菌的细胞化过程与动物和酵母的传统胞质分裂和细胞化过程机制截然不同。

期刊:Current Biology
影响因子:7.5
doi:10.1016/j.cub.2025.11.048
Medina, Edgar M; Elting, Mary Williard; Fritz-Laylin, Lillian
细胞生物学
发表日期:2026
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Fungal impacts on Earth's ecosystems

真菌对地球生态系统的影响

期刊:Nature
影响因子:48.5
doi:10.1038/s41586-024-08419-4
Case, Nicola T; Gurr, Sarah J; Fisher, Matthew C; Blehert, David S; Boone, Charles; Casadevall, Arturo; Chowdhary, Anuradha; Cuomo, Christina A; Currie, Cameron R; Denning, David W; Ene, Iuliana V; Fritz-Laylin, Lillian K; Gerstein, Aleeza C; Gow, Neil A R; Gusa, Asiya; Iliev, Iliyan D; James, Timothy Y; Jin, Hailing; Kahmann, Regine; Klein, Bruce S; Kronstad, James W; Ost, Kyla S; Peay, Kabir G; Shapiro, Rebecca S; Sheppard, Donald C; Shlezinger, Neta; Stajich, Jason E; Stukenbrock, Eva H; Taylor, John W; Wright, Gerard D; Cowen, Leah E; Heitman, Joseph; Segre, Julia A
微生物学
发表日期:2025
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Frog-killing chytrid fungus deploys different strategies to regulate intracellular pressure in developmental states that have or lack a cell wall

导致青蛙死亡的壶菌在具有或不具有细胞壁的发育阶段,会采用不同的策略来调节细胞内压力。

期刊:Current Biology
影响因子:7.5
doi:10.1016/j.cub.2025.10.013
Prostak, Sarah M; Velle, Katrina B; Fritz-Laylin, Lillian K
细胞生物学
发育与干细胞
发表日期:2025
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Evolutionary cell biology comes of age

进化细胞生物学日趋成熟

期刊:Journal of Cell Science
影响因子:3.6
doi:10.1242/jcs.264348
Dey, Gautam; Fritz-Laylin, Lillian; Oliferenko, Snezhana; Tromer, Eelco C
细胞生物学
发表日期:2025
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Dynamic remodeling of centrioles and the microtubule cytoskeleton in the lifecycle of chytrid fungi

壶菌生命周期中中心粒和微管细胞骨架的动态重塑

期刊:Molecular Biology of the Cell
影响因子:2.7
doi:10.1091/mbc.E24-12-0577
Long, Alexandra F; Vasudevan, Krishnakumar; Swafford, Andrew J M; Venard, Claire M; Stajich, Jason E; Fritz-Laylin, Lillian K; Feldman, Jessica L; Stearns, Tim
细胞生物学
发表日期:2025
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Naegleria amoebae seek confinement and crawl persistently through narrow spaces

纳氏变形虫喜欢被限制在狭小的空间内,并会持续地在狭窄的空间中爬行。

期刊:
影响因子:
doi:10.1101/2025.11.30.691445
Velle, Katrina B; Ramaswamy, Meera; Hokmabad, Babak Vajdi; Martín-Pérez, Tania; Carrasco, Teodoro Tapia; Callahan, William S; Kim, Harrison S; Datta, Sujit S; Edwards, Marc; Fritz-Laylin, Lillian K
发表日期:2025
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Dynamic remodeling of centrioles and the microtubule cytoskeleton in the lifecycle of chytrid fungi

壶菌生命周期中中心粒和微管细胞骨架的动态重塑

期刊:
影响因子:
doi:10.1101/2025.01.03.631223
Long, Alexandra F; Vasudevan, Krishnakumar; Swafford, Andrew J M; Venard, Claire M; Stajich, Jason E; Fritz-Laylin, Lillian K; Feldman, Jessica L; Stearns, Tim
细胞生物学
发表日期:2025
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Three-dimensional cellularization in chytrid fungi uses distinct mechanisms from those driving one- and two-dimensional cytokinesis in animals and yeast.

壶菌的三维细胞化机制与动物和酵母的一维和二维细胞分裂机制截然不同

期刊:
影响因子:
doi:10.1101/2025.01.30.635136
Medina Edgar M, Elting Mary W, Fritz-Laylin Lillian
细胞生物学
Yeast
肠道菌群
发表日期:2025
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Myosin 2 drives actin contractility in fast-crawling species outside of the amorphean lineage.

肌球蛋白 2 驱动非无定形类群的快速爬行物种的肌动蛋白收缩

期刊:
影响因子:
doi:10.1101/2025.05.16.654244
Guest Sarah L, Velle Katrina B, Jacques Samantha M, Park Yvette, Man Jarrett, Titus Margaret A, Fritz-Laylin Lillian K
其它
发表日期:2025
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Frog-killing chytrid fungi deploy different strategies to regulate intracellular pressure in cell types that have or lack a cell wall.

能杀死青蛙的壶菌会采用不同的策略来调节有细胞壁和无细胞壁的细胞类型的细胞内压力

期刊:
影响因子:
doi:10.1101/2025.05.13.653819
Prostak Sarah, Velle Katrina B, Fritz-Laylin Lillian K
细胞生物学
肠道菌群
发表日期:2025
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