© 2026 Optics and Photonics at Nottingham
Publications
in Top 10% Journal Percentiles
43%
Global
Partnerships
56.3%
Corporate
Collaboration
8.8%
Annual research
funding
£5m+
Data for 2020-2025 from SciVal
Selected Publications
2023
2.
Bonilla-Díaz, Andrea; Ordóñez-Morán, Paloma
Differentiated epithelial cells of the gut Journal Article
In: Methods Mol. Biol., vol. 2650, pp. 3–16, 2023.
Abstract | Tags: Colon, Differentiation, Enterocytes, Enteroendocrine cells, Goblet cells, Intestine, Microfold cells, Paneth cells, Tuft cells
@article{Bonilla-Diaz2023-eh,
title = {Differentiated epithelial cells of the gut},
author = {Andrea Bonilla-D\'{i}az and Paloma Ord\'{o}\~{n}ez-Mor\'{a}n},
year = {2023},
date = {2023-01-01},
journal = {Methods Mol. Biol.},
volume = {2650},
pages = {3\textendash16},
abstract = {The intestine is a prime example of self-renewal where stem cells
give rise to progenitor cells called transit-amplifying cells
which differentiate into more specialized cells. There are two
intestinal lineages: the absorptive (enterocytes and microfold
cells) and the secretory (Paneth cells, enteroendocrine, goblet
cells, and tuft cells). Each of these differentiated cell types
has a role in creating an ``ecosystem'' to maintain intestinal
homeostasis. Here, we summarize the main roles of each cell type.},
keywords = {Colon, Differentiation, Enterocytes, Enteroendocrine cells, Goblet cells, Intestine, Microfold cells, Paneth cells, Tuft cells},
pubstate = {published},
tppubtype = {article}
}
The intestine is a prime example of self-renewal where stem cells
give rise to progenitor cells called transit-amplifying cells
which differentiate into more specialized cells. There are two
intestinal lineages: the absorptive (enterocytes and microfold
cells) and the secretory (Paneth cells, enteroendocrine, goblet
cells, and tuft cells). Each of these differentiated cell types
has a role in creating an ``ecosystem'' to maintain intestinal
homeostasis. Here, we summarize the main roles of each cell type.
give rise to progenitor cells called transit-amplifying cells
which differentiate into more specialized cells. There are two
intestinal lineages: the absorptive (enterocytes and microfold
cells) and the secretory (Paneth cells, enteroendocrine, goblet
cells, and tuft cells). Each of these differentiated cell types
has a role in creating an ``ecosystem'' to maintain intestinal
homeostasis. Here, we summarize the main roles of each cell type.
1.
Marva, Gurveer; Ünsal, Seyda; Benest, Andrew V; Bates, David O; Ordóñez-Morán, Paloma
Novel approach to measure transepithelial electrical resistance in intestinal cells Journal Article
In: Methods Mol. Biol., vol. 2650, pp. 35–42, 2023.
Abstract | Tags: Caco-2 cells, Colon, Differentiation, ECIS, Intestine, TEER
@article{Marva2023-zw,
title = {Novel approach to measure transepithelial electrical resistance
in intestinal cells},
author = {Gurveer Marva and Seyda \"{U}nsal and Andrew V Benest and David O Bates and Paloma Ord\'{o}\~{n}ez-Mor\'{a}n},
year = {2023},
date = {2023-01-01},
journal = {Methods Mol. Biol.},
volume = {2650},
pages = {35\textendash42},
abstract = {The technique electric cell-substrate impedance sensing (ECIS)
can be used to detect and monitor the behavior of intestinal
cells. The methodology presented was designed to achieve results
within a short time frame, and it was tailored to use a colonic
cancer cell line. Differentiation of intestinal cancer cells has
previously been reported to be regulated by retinoic acid (RA).
Here, colonic cancer cells were cultured in the ECIS array before
being treated with RA, and any changes in response to RA were
monitored after treatment. The ECIS recorded changes in impedance
in response to the treatment and vehicle. This methodology poses
as a novel way to record the behavior of colonic cells and opens
new avenues for in vitro research.},
keywords = {Caco-2 cells, Colon, Differentiation, ECIS, Intestine, TEER},
pubstate = {published},
tppubtype = {article}
}
The technique electric cell-substrate impedance sensing (ECIS)
can be used to detect and monitor the behavior of intestinal
cells. The methodology presented was designed to achieve results
within a short time frame, and it was tailored to use a colonic
cancer cell line. Differentiation of intestinal cancer cells has
previously been reported to be regulated by retinoic acid (RA).
Here, colonic cancer cells were cultured in the ECIS array before
being treated with RA, and any changes in response to RA were
monitored after treatment. The ECIS recorded changes in impedance
in response to the treatment and vehicle. This methodology poses
as a novel way to record the behavior of colonic cells and opens
new avenues for in vitro research.
can be used to detect and monitor the behavior of intestinal
cells. The methodology presented was designed to achieve results
within a short time frame, and it was tailored to use a colonic
cancer cell line. Differentiation of intestinal cancer cells has
previously been reported to be regulated by retinoic acid (RA).
Here, colonic cancer cells were cultured in the ECIS array before
being treated with RA, and any changes in response to RA were
monitored after treatment. The ECIS recorded changes in impedance
in response to the treatment and vehicle. This methodology poses
as a novel way to record the behavior of colonic cells and opens
new avenues for in vitro research.
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