Deconstructing the principles of ductal network formation in the pancreas

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Standard

Deconstructing the principles of ductal network formation in the pancreas. / Dahl-Jensen, Svend Bertel; Yennek, Siham; Flasse, Lydie; Larsen, Hjalte List; Sever, Dror; Karremore, Gopal; Novak, Ivana; Sneppen, Kim; Botton, Anne.

I: PLOS Biology, Bind 16, Nr. 7, e2002842, 2018.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Dahl-Jensen, SB, Yennek, S, Flasse, L, Larsen, HL, Sever, D, Karremore, G, Novak, I, Sneppen, K & Botton, A 2018, 'Deconstructing the principles of ductal network formation in the pancreas', PLOS Biology, bind 16, nr. 7, e2002842. https://doi.org/10.1371/journal.pbio.2002842

APA

Dahl-Jensen, S. B., Yennek, S., Flasse, L., Larsen, H. L., Sever, D., Karremore, G., Novak, I., Sneppen, K., & Botton, A. (2018). Deconstructing the principles of ductal network formation in the pancreas. PLOS Biology, 16(7), [e2002842]. https://doi.org/10.1371/journal.pbio.2002842

Vancouver

Dahl-Jensen SB, Yennek S, Flasse L, Larsen HL, Sever D, Karremore G o.a. Deconstructing the principles of ductal network formation in the pancreas. PLOS Biology. 2018;16(7). e2002842. https://doi.org/10.1371/journal.pbio.2002842

Author

Dahl-Jensen, Svend Bertel ; Yennek, Siham ; Flasse, Lydie ; Larsen, Hjalte List ; Sever, Dror ; Karremore, Gopal ; Novak, Ivana ; Sneppen, Kim ; Botton, Anne. / Deconstructing the principles of ductal network formation in the pancreas. I: PLOS Biology. 2018 ; Bind 16, Nr. 7.

Bibtex

@article{105597ee05134bc884748c2eaadf4763,
title = "Deconstructing the principles of ductal network formation in the pancreas",
abstract = "The mammalian pancreas is a branched organ that does not exhibit stereotypic branching patterns, similarly to most other glands. Inside branches, it contains a network of ducts that undergo a transition from unconnected microlumen to a mesh of interconnected ducts and finally to a treelike structure. This ductal remodeling is poorly understood, both on a microscopic and macroscopic level. In this article, we quantify the network properties at different developmental stages. We find that the pancreatic network exhibits stereotypic traits at each stage and that the network properties change with time toward the most economical and optimized delivery of exocrine products into the duodenum. Using in silico modeling, we show how steps of pancreatic network development can be deconstructed into two simple rules likely to be conserved for many other glands. The early stage of the network is explained by noisy, redundant duct connection as new microlumens form. The later transition is attributed to pruning of the network based on the flux of fluid running through the pancreatic network into the duodenum.",
author = "Dahl-Jensen, {Svend Bertel} and Siham Yennek and Lydie Flasse and Larsen, {Hjalte List} and Dror Sever and Gopal Karremore and Ivana Novak and Kim Sneppen and Anne Botton",
year = "2018",
doi = "10.1371/journal.pbio.2002842",
language = "English",
volume = "16",
journal = "PLoS Biology",
issn = "1544-9173",
publisher = "Public Library of Science",
number = "7",

}

RIS

TY - JOUR

T1 - Deconstructing the principles of ductal network formation in the pancreas

AU - Dahl-Jensen, Svend Bertel

AU - Yennek, Siham

AU - Flasse, Lydie

AU - Larsen, Hjalte List

AU - Sever, Dror

AU - Karremore, Gopal

AU - Novak, Ivana

AU - Sneppen, Kim

AU - Botton, Anne

PY - 2018

Y1 - 2018

N2 - The mammalian pancreas is a branched organ that does not exhibit stereotypic branching patterns, similarly to most other glands. Inside branches, it contains a network of ducts that undergo a transition from unconnected microlumen to a mesh of interconnected ducts and finally to a treelike structure. This ductal remodeling is poorly understood, both on a microscopic and macroscopic level. In this article, we quantify the network properties at different developmental stages. We find that the pancreatic network exhibits stereotypic traits at each stage and that the network properties change with time toward the most economical and optimized delivery of exocrine products into the duodenum. Using in silico modeling, we show how steps of pancreatic network development can be deconstructed into two simple rules likely to be conserved for many other glands. The early stage of the network is explained by noisy, redundant duct connection as new microlumens form. The later transition is attributed to pruning of the network based on the flux of fluid running through the pancreatic network into the duodenum.

AB - The mammalian pancreas is a branched organ that does not exhibit stereotypic branching patterns, similarly to most other glands. Inside branches, it contains a network of ducts that undergo a transition from unconnected microlumen to a mesh of interconnected ducts and finally to a treelike structure. This ductal remodeling is poorly understood, both on a microscopic and macroscopic level. In this article, we quantify the network properties at different developmental stages. We find that the pancreatic network exhibits stereotypic traits at each stage and that the network properties change with time toward the most economical and optimized delivery of exocrine products into the duodenum. Using in silico modeling, we show how steps of pancreatic network development can be deconstructed into two simple rules likely to be conserved for many other glands. The early stage of the network is explained by noisy, redundant duct connection as new microlumens form. The later transition is attributed to pruning of the network based on the flux of fluid running through the pancreatic network into the duodenum.

U2 - 10.1371/journal.pbio.2002842

DO - 10.1371/journal.pbio.2002842

M3 - Journal article

C2 - 30048442

VL - 16

JO - PLoS Biology

JF - PLoS Biology

SN - 1544-9173

IS - 7

M1 - e2002842

ER -

ID: 201609286