Add to ORKGStem cells are crucial in morphogenesis in plants and animals. Much is known about the mechanisms that maintain stem cell fates or trigger their terminal differentiation. However, little is known about how developmental time impacts stem cell fates. Using Arabidopsis floral stem cells as a model, we show that stem cells can undergo precise temporal regulation governed by mechanisms that are distinct from, but integrated with, those that specify cell fates. We show that two microRNAs, miR172 and miR165/166, through targeting APETALA2 and type III homeodomain-leucine zipper (HD-Zip) genes, respectively, regulate the temporal program of floral stem cells. In particular, we reveal a role of the type III HD-Zip genes, previously known to specify...
Axillary meristems (AMs) give rise to lateral shoots and are critical to plant architecture. Underst...
Termination of the stem cells in the floral meristem (also known as floral determinacy) is critical ...
Post-embryonic development in plants derives from the Shoot Apical Meristem (SAM). The floral transi...
Stem cells are crucial in morphogenesis in plants and animals. Much is known about the mechanisms th...
Stem cells are crucial in morphogenesis in plants and animals. Much is known about the mechanisms th...
International audiencePluripotent stem cells localized in proliferating growth centers, the meristem...
SummaryThe shoot apical meristem (SAM) comprises a group of undifferentiated cells that divide to ma...
microRNAs (miRNAs) play regulatory roles in various developmental processes including stem cell main...
SummaryArabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes the...
AbstractThe ARGONAUTE gene family is involved in the regulation of gene expression via the RNAi Sile...
Arabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes their acti...
SummaryArabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes the...
Development in multicellular organisms requires a strict balance between cell division and different...
Termination of the stem cells in the floral meristem (also known as floral determinacy) is critical ...
Termination of the stem cells in the floral meristem (also known as floral determinacy) is critical ...
Axillary meristems (AMs) give rise to lateral shoots and are critical to plant architecture. Underst...
Termination of the stem cells in the floral meristem (also known as floral determinacy) is critical ...
Post-embryonic development in plants derives from the Shoot Apical Meristem (SAM). The floral transi...
Stem cells are crucial in morphogenesis in plants and animals. Much is known about the mechanisms th...
Stem cells are crucial in morphogenesis in plants and animals. Much is known about the mechanisms th...
International audiencePluripotent stem cells localized in proliferating growth centers, the meristem...
SummaryThe shoot apical meristem (SAM) comprises a group of undifferentiated cells that divide to ma...
microRNAs (miRNAs) play regulatory roles in various developmental processes including stem cell main...
SummaryArabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes the...
AbstractThe ARGONAUTE gene family is involved in the regulation of gene expression via the RNAi Sile...
Arabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes their acti...
SummaryArabidopsis Argonaute10 (AGO10) specifically sequesters miR165 and miR166 and antagonizes the...
Development in multicellular organisms requires a strict balance between cell division and different...
Termination of the stem cells in the floral meristem (also known as floral determinacy) is critical ...
Termination of the stem cells in the floral meristem (also known as floral determinacy) is critical ...
Axillary meristems (AMs) give rise to lateral shoots and are critical to plant architecture. Underst...
Termination of the stem cells in the floral meristem (also known as floral determinacy) is critical ...
Post-embryonic development in plants derives from the Shoot Apical Meristem (SAM). The floral transi...