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Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning

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Bibliographic Details
Published in:	Science China Life Sciences
Format:	Online Article RSS Article
Published:	2026
Subjects:	Biology Natural Sciences — Life Sciences Natural Sciences Journal Article
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container_title	Science China Life Sciences
description
discipline_display	Natural Sciences
discipline_facet	Natural Sciences
format	Online Article RSS Article
genre	Journal Article
id	rss_article:47349
institution	FRELIP
journal_source_facet	Science China Life Sciences
publishDate	2026
publishDateSort	2026
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spellingShingle	Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning Biology Natural Sciences — Life Sciences Natural Sciences
sub_discipline_display	Natural Sciences — Life Sciences
sub_discipline_facet	Natural Sciences — Life Sciences
subject_display	Biology Natural Sciences — Life Sciences Natural Sciences Biology Natural Sciences — Life Sciences Natural Sciences
subject_facet	Biology Natural Sciences — Life Sciences Natural Sciences
title	Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning
title_auth	Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning
title_full	Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning
title_fullStr	Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning
title_full_unstemmed	Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning
title_short	Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning
title_sort	quantitative modeling reveals shr-scr and auxin balance as a regulatory axis for c3 and c4 leaf vein patterning
topic	Biology Natural Sciences — Life Sciences Natural Sciences
url	https://link.springer.com/article/10.1007/s11427-025-3317-5

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Quantitative modeling reveals SHR-SCR and auxin balance as a regulatory axis for C3 and C4 leaf vein patterning

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