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Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx

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Zeitschriftentitel: Development
Personen und Körperschaften: Zhu, Sijun, Chiang, Ann-Shyn, Lee, Tzumin
In: Development, 130, 2003, 12, S. 2603-2610
Format: E-Article
Sprache: Englisch
veröffentlicht:
The Company of Biologists
Schlagwörter:
Developmental Biology
Molecular Biology
author_facet Zhu, Sijun
Chiang, Ann-Shyn
Lee, Tzumin
Zhu, Sijun
Chiang, Ann-Shyn
Lee, Tzumin
author Zhu, Sijun
Chiang, Ann-Shyn
Lee, Tzumin
spellingShingle Zhu, Sijun
Chiang, Ann-Shyn
Lee, Tzumin
Development
Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
Developmental Biology
Molecular Biology
author_sort zhu, sijun
spelling Zhu, Sijun Chiang, Ann-Shyn Lee, Tzumin 1477-9129 0950-1991 The Company of Biologists Developmental Biology Molecular Biology http://dx.doi.org/10.1242/dev.00466 <jats:p>One Drosophila mushroom body (MB) is derived from four indistinguishable cell lineages, development of which involves sequential generation of multiple distinct types of neurons. Differential labeling of distinct MB clones reveals that MB dendrites of different clonal origins are well mixed at the larval stage but become restricted to distinct spaces in adults. Interestingly, a small dendritic domain in the adult MB calyx remains as a fourfold structure that, similar to the entire larval calyx, receives dendritic inputs from all four MB clones. Mosaic analysis of single neurons demonstrates that MB neurons, which are born around pupal formation, acquire unique dendritic branching patterns and consistently project their primary dendrites into the fourfold dendritic domain. Distinct dendrite distribution patterns are also observed for other subtypes of MB neurons. In addition,pruning of larval dendrites during metamorphosis allows for establishment of adult-specific dendrite elaboration/distribution patterns. Taken together,subregional differences exist in the adult Drosophila MB calyx, where processing and integration of distinct types of sensory information begin.</jats:p> Development of the<i>Drosophila</i>mushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx Development
doi_str_mv 10.1242/dev.00466
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title Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_unstemmed Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_full Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_fullStr Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_full_unstemmed Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_short Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_sort development of the<i>drosophila</i>mushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
topic Developmental Biology
Molecular Biology
url http://dx.doi.org/10.1242/dev.00466
publishDate 2003
physical 2603-2610
description <jats:p>One Drosophila mushroom body (MB) is derived from four indistinguishable cell lineages, development of which involves sequential generation of multiple distinct types of neurons. Differential labeling of distinct MB clones reveals that MB dendrites of different clonal origins are well mixed at the larval stage but become restricted to distinct spaces in adults. Interestingly, a small dendritic domain in the adult MB calyx remains as a fourfold structure that, similar to the entire larval calyx, receives dendritic inputs from all four MB clones. Mosaic analysis of single neurons demonstrates that MB neurons, which are born around pupal formation, acquire unique dendritic branching patterns and consistently project their primary dendrites into the fourfold dendritic domain. Distinct dendrite distribution patterns are also observed for other subtypes of MB neurons. In addition,pruning of larval dendrites during metamorphosis allows for establishment of adult-specific dendrite elaboration/distribution patterns. Taken together,subregional differences exist in the adult Drosophila MB calyx, where processing and integration of distinct types of sensory information begin.</jats:p>
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author Zhu, Sijun, Chiang, Ann-Shyn, Lee, Tzumin
author_facet Zhu, Sijun, Chiang, Ann-Shyn, Lee, Tzumin, Zhu, Sijun, Chiang, Ann-Shyn, Lee, Tzumin
author_sort zhu, sijun
container_issue 12
container_start_page 2603
container_title Development
container_volume 130
description <jats:p>One Drosophila mushroom body (MB) is derived from four indistinguishable cell lineages, development of which involves sequential generation of multiple distinct types of neurons. Differential labeling of distinct MB clones reveals that MB dendrites of different clonal origins are well mixed at the larval stage but become restricted to distinct spaces in adults. Interestingly, a small dendritic domain in the adult MB calyx remains as a fourfold structure that, similar to the entire larval calyx, receives dendritic inputs from all four MB clones. Mosaic analysis of single neurons demonstrates that MB neurons, which are born around pupal formation, acquire unique dendritic branching patterns and consistently project their primary dendrites into the fourfold dendritic domain. Distinct dendrite distribution patterns are also observed for other subtypes of MB neurons. In addition,pruning of larval dendrites during metamorphosis allows for establishment of adult-specific dendrite elaboration/distribution patterns. Taken together,subregional differences exist in the adult Drosophila MB calyx, where processing and integration of distinct types of sensory information begin.</jats:p>
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imprint The Company of Biologists, 2003
imprint_str_mv The Company of Biologists, 2003
institution DE-Brt1, DE-Zwi2, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Rs1, DE-Pl11, DE-105, DE-14, DE-Ch1, DE-L229, DE-D275, DE-Bn3
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spelling Zhu, Sijun Chiang, Ann-Shyn Lee, Tzumin 1477-9129 0950-1991 The Company of Biologists Developmental Biology Molecular Biology http://dx.doi.org/10.1242/dev.00466 <jats:p>One Drosophila mushroom body (MB) is derived from four indistinguishable cell lineages, development of which involves sequential generation of multiple distinct types of neurons. Differential labeling of distinct MB clones reveals that MB dendrites of different clonal origins are well mixed at the larval stage but become restricted to distinct spaces in adults. Interestingly, a small dendritic domain in the adult MB calyx remains as a fourfold structure that, similar to the entire larval calyx, receives dendritic inputs from all four MB clones. Mosaic analysis of single neurons demonstrates that MB neurons, which are born around pupal formation, acquire unique dendritic branching patterns and consistently project their primary dendrites into the fourfold dendritic domain. Distinct dendrite distribution patterns are also observed for other subtypes of MB neurons. In addition,pruning of larval dendrites during metamorphosis allows for establishment of adult-specific dendrite elaboration/distribution patterns. Taken together,subregional differences exist in the adult Drosophila MB calyx, where processing and integration of distinct types of sensory information begin.</jats:p> Development of the<i>Drosophila</i>mushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx Development
spellingShingle Zhu, Sijun, Chiang, Ann-Shyn, Lee, Tzumin, Development, Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx, Developmental Biology, Molecular Biology
title Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_full Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_fullStr Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_full_unstemmed Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_short Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_sort development of the<i>drosophila</i>mushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
title_unstemmed Development of theDrosophilamushroom bodies: elaboration,remodeling and spatial organization of dendrites in the calyx
topic Developmental Biology, Molecular Biology
url http://dx.doi.org/10.1242/dev.00466