As a peptide hormone, CLV3 restricts the stem cell number in shoot apical meristem (SAM) by interacting with CLV1/CLV2/CRN/RPK2 receptor complexes. To elucidate how the function of the CLV3 peptide in SAM maintenanc...As a peptide hormone, CLV3 restricts the stem cell number in shoot apical meristem (SAM) by interacting with CLV1/CLV2/CRN/RPK2 receptor complexes. To elucidate how the function of the CLV3 peptide in SAM maintenance is established at the amino acid (AA) level, alanine substitutions were performed by introducing point mutations to individual residues in the peptide-coding region of CLV3 and its flanking sequences. Constructs carrying such substitutions, expressed under the control of CLV3 regulatory elements, were transformed to the clv3-2 null mutant to evaluate their efficiencies in complementing its defects in SAMs in vivo. These studies showed that aspartate-8, histidine-11, glycine-6, proline-4, arginine-1, and proline-9, arranged in an order of importance, were critical, while threonine-2, valine-3, serine-5, and the previously assigned hydroxylation and arabinosylation residue proline-7 were trivial for the endogenous CLV3 function in SAM maintenance. In contrast, substitutions of flanking residues did not impose much damage on CLV3. Complementation of different alanine-substituted constructs was confirmed by measurements of the sizes of SAMs and the WUS expression levels in transgenic plants. These studies established a complete contribution map of individual residues in the peptide-coding region of CLV3 for its function in SAM, which may help to understand peptide hormones in general.展开更多
The application of stem cells to regenerative medicine depends on a thorough understanding of the molecular mechanisms underlying their pluripotency. Many studies have identified key transcription factor-regulated tra...The application of stem cells to regenerative medicine depends on a thorough understanding of the molecular mechanisms underlying their pluripotency. Many studies have identified key transcription factor-regulated transcriptional networks and chromatin landscapes of embryonic and a number of adult stem cells. In addition, recent publications have revealed another interesting molecular feature of stem cells-- a distinct alternative splicing pattern. Thus, it is possible that both the identity and activity of stem cells are maintained by stem cell-specific mRNA isoforms, while switching to different isoforms ensures proper differentiation. In this review, we will discuss the generality of mRNA isoform switching and its interaction with other molecular mechanisms to regulate stem cell pluripotency, as well as the reprogramming process in which differentiated cells are induced to become pluripotent stem cell-like cells (iPSCs).展开更多
基金This work was supported by the Ministry of China (2007CB948200), Chinese of Science and Technology Academy of Sciences (1105000003 and 200904910192008), and the National Natural Science Foundation of China (30821007 and 31000623). ACKNOWLEDGMENTS We thank Dr Trevor L. Wang at the John Innes Centre, UK, for critical reading of the manuscript Prof. Kexue Xu at the Institute of Botany, Chinese Academy of Sciences, for suggestions regarding the statistica~ data analysis and Dr Wei Gao at Beijing Forestry University for discussions of the results. No conflict of interest declared.
文摘As a peptide hormone, CLV3 restricts the stem cell number in shoot apical meristem (SAM) by interacting with CLV1/CLV2/CRN/RPK2 receptor complexes. To elucidate how the function of the CLV3 peptide in SAM maintenance is established at the amino acid (AA) level, alanine substitutions were performed by introducing point mutations to individual residues in the peptide-coding region of CLV3 and its flanking sequences. Constructs carrying such substitutions, expressed under the control of CLV3 regulatory elements, were transformed to the clv3-2 null mutant to evaluate their efficiencies in complementing its defects in SAMs in vivo. These studies showed that aspartate-8, histidine-11, glycine-6, proline-4, arginine-1, and proline-9, arranged in an order of importance, were critical, while threonine-2, valine-3, serine-5, and the previously assigned hydroxylation and arabinosylation residue proline-7 were trivial for the endogenous CLV3 function in SAM maintenance. In contrast, substitutions of flanking residues did not impose much damage on CLV3. Complementation of different alanine-substituted constructs was confirmed by measurements of the sizes of SAMs and the WUS expression levels in transgenic plants. These studies established a complete contribution map of individual residues in the peptide-coding region of CLV3 for its function in SAM, which may help to understand peptide hormones in general.
文摘The application of stem cells to regenerative medicine depends on a thorough understanding of the molecular mechanisms underlying their pluripotency. Many studies have identified key transcription factor-regulated transcriptional networks and chromatin landscapes of embryonic and a number of adult stem cells. In addition, recent publications have revealed another interesting molecular feature of stem cells-- a distinct alternative splicing pattern. Thus, it is possible that both the identity and activity of stem cells are maintained by stem cell-specific mRNA isoforms, while switching to different isoforms ensures proper differentiation. In this review, we will discuss the generality of mRNA isoform switching and its interaction with other molecular mechanisms to regulate stem cell pluripotency, as well as the reprogramming process in which differentiated cells are induced to become pluripotent stem cell-like cells (iPSCs).
