finding

active

finding:newt-kidney-tubule-cells-produce-correct-tubule-diameter-using-fewer-cells-when-cell-size-is-enlarged-a-single-enlarged-cell-can-loop-to-achieve-the-same-diameter-fankhauser-1945

Newt kidney tubule cells produce correct tubule diameter using fewer cells when cell size is enlarged; a single enlarged cell can loop to achieve the same diameter (Fankhauser 1945).

Shows multi-scale anatomical homeostasis using different cellular mechanisms.

Source paper

extracted_from

The collective intelligence of evolution and development

(2023) · Watson, Richard · Levin, Michael

Neighborhood — ranked by edge-count

Claims (2)

claim

Newt kidney tubule cells, when artificially enlarged, can bend a single cell around itself to achieve correct tubule diameter, illustrating top-down control over molecular mechanisms.
restates
Extreme example of regulative flexibility.
Morphogenesis is an instantiation of collective intelligence, exhibiting anatomical homeostasis and autonomous problem-solving in morphospace.
supports
Reframes developmental biology as collective cognition.

Communities (2)

community

Tubule size invariance via cell number compensation
members_of
Newt kidney tubules maintain correct lumen diameter through cell number adjustment and single-cell self-wrapping in polyploid conditions.
Polyploid cell size compensation in tubulogenesis
members_of
Newt kidney tubules maintain correct lumen diameter despite ploidy-induced cell enlargement via number and wrapping adjustments.

Findings (2)

finding

Enlarged newt cells compensate for increased size by adjusting cell number and can form kidney tubule from a single cell wrapped around itself.
restates
When cell size was doubled, tubules used fewer cells; when quadrupled, a single cell formed the tubule by cytoskeletal deformation, maintaining correct lumen diameter.
Single newt cell can wrap around itself to form a kidney tubule when cell size is artificially increased.
restates
From Fankhauser (1945), demonstrates diverse molecular mechanisms serving a higher-level anatomical specification.

Related by similarity (8)

cosine ≥ 0.65 · no typed edge

Entities in the same semantic neighborhood but without a typed relation to this one — candidates for new edges or unrecognized duplicates.

Newt kidney tubule lumen diameter is maintained with fewer, larger cells by switching to a single-cell wrapping mechanismfinding0.889
When cell size is artificially enlarged, tubule formation adapts by reducing cell count and eventually using cytoskeletal bending within one cell.
Polyploid newts maintain normal kidney tubule size via cell number adjustment or single-cell wrapping, using different molecular mechanisms.finding0.888
From Fankhauser 1945; illustrates top-down control where large-scale morphology is maintained despite drastically wrong cell size.
Polyploid newts maintain normal kidney tubule diameters using fewer, larger cells.finding0.888
Fankhauser 1945 finding on anatomical regulation despite ploidy changes.
Enlarged polyploid cells produce normal-sized kidney tubules by adjusting cell number and using cytoskeletal bendingfinding0.857
Shows diverse molecular mechanisms serve higher-level anatomical specification despite radical changes in cell size and quantity.
Kidney tubules form correctly despite altered cell size and numberfinding0.819
Single enlarged cells can form proper tubules through cytoskeletal bending alonefinding0.812
Polyploid Newt Kidney Tubule Adaptationfinding0.783
Engineered polyploid newts with abnormally large cells and extra chromosomes develop normal kidney tubule diameters by switching molecular mechanisms on-the-fly.
Polyploid Newt Kidney Size Compensationfinding0.759

Restated by (3)

cosine ≥ 0.90

Other entities that say roughly the same thing. May be merge candidates or independent restatements across papers.