拟南芥健壮的器官大小主要由细胞生长而不是细胞分裂模式决定

Isabella Burda, Chun-Biu Li, Frances K Clark, Adrienne HK Roeder
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引用次数: 0

摘要

器官的大小和形状在一个物种和个体中是高度可复制的。拟南芥萼片是包裹花蕾的叶状器官,其大小和形状一致,表明其发育健壮。与直觉相反的是,细胞生长速率随时间和细胞之间的变异性促进了健壮的发育,因为累积的细胞生长平均为统一的速率。在这里,我们研究萼片形态发生对细胞分裂的变化是稳健的,但对细胞生长变异性的变化不是稳健的。我们实时成像并定量比较了细胞分裂率增加或减少的萼片发育(分别为lgo突变体和lgo过表达)、细胞生长变异性改变的突变体(ftsh4)和结合这些突变体的双突变体。我们发现,当细胞分裂率发生变化时,由于生长的空间格局没有变化,因此鲁棒性得以保留。同时,当ftsh4突变体失去鲁棒性时,细胞生长积累不均匀,细胞生长方向混乱。因此,我们在体内证明了细胞生长速度和方向在稳健发育中都是平均的,尽管细胞分裂发生了变化,但仍保持稳健。
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Robust organ size in Arabidopsis is primarily governed by cell growth rather than cell division patterns
Organ sizes and shapes are highly reproducible, or robust, within a species and individuals. Arabidopsis thaliana sepals, which are the leaf-like organs that enclose flower buds, have consistent size and shape, which indicates robust development. Counterintuitively, variability in cell growth rate over time and between cells facilitates robust development because cumulative cell growth averages to a uniform rate. Here we investigate how sepal morphogenesis is robust to changes in cell division but not robust to changes in cell growth variability. We live image and quantitatively compare the development of sepals with increased or decreased cell division rate (lgo mutant and LGO overexpression, respectively), a mutant with altered cell growth variability (ftsh4), and double mutants combining these. We find that robustness is preserved when cell division rate changes because there is no change in the spatial pattern of growth. Meanwhile when robustness is lost in ftsh4 mutants, cell growth accumulates unevenly, and cells have disorganized growth directions. Thus, we demonstrate in vivo that both cell growth rate and direction average in robust development, preserving robustness despite changes in cell division.
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