A connectionist model of development

doi:10.1016/S0022-5193(05)80391-1

Journal of Theoretical Biology

Volume 152, Issue 4, 21 October 1991, Pages 429-453

https://doi.org/10.1016/S0022-5193(05)80391-1 Get rights and content

We present a phenomenological modeling framework for development. Our purpose is to provide a systematic method for discovering and expressing correlations in experimental data on gene expression and other developmental processes. The modeling framework is based on a connectionist or “neural net” dynamics for biochemical regulators, coupled to “grammatical rules” which describe certain features of the birth, growth, and death of cells, synapses and other biological entities. We outline how spatial geometry can be included, although this part of the model is not complete. As an example of the application of our results to a specific biological system, we show in detail how to derive a rigorously testable model of the network of segmentation genes operating in the blastoderm of Drosophila. To further illustrate our methods, we sketch how they could be applied to two other important developmental processes: cell cycle control and cell-cell induction. We also present a simple biochemical model leading to our assumed connectionist dynamics which shows that the dynamics used is at least compatible with known chemical mechanisms.

References (26)

CarrollS.B. et al.
Zygotically active genes that affect the spatial expression of the fushi tarazu segmentation gene during early Drosophila embryogenesis
Cell
(1986)
GoodwinB. et al.
Spatial harmonics and pattern specification in early Drosophila development. Bifurcation sequences and gene expression
J. theor. Biol.
(1990)
MjolsnessE. et al.
Scaling, machine learning, and genetic neural nets
Advan. appl. Math.
(1989)
ReinitzJ. et al.
Control of the initiation of homeotic gene expression by the gap genes giant and tailless in Drosophila
Dev. Biol.
(1990)
AkamM.
The molecular basis for metameric pattern in the Drosophila embryo
Development
(1987)
BaumE. et al.
What size net gives valid generalization?
BellG.I.
Models of cell adhesion involving specific binding
CarrollS.B. et al.
Expression, function, and regulation of the hairy segmentation protein in the Drosophila embryo
Genes and Development
(1988)
EdgarB.A. et al.
A genetic switch, based on negative regulation, sharpens stripes in Drosophila embryos
Dev. Gen.
(1989)
FoeV.A. et al.
Studies of nuclear and cytoplasmic behaviour during the five mitotic cycles that precede gastrulation in Drosophila embryogenesis
J. Cell Sci.
(1983)

FraschM. et al.

Complementary patterns of even-skipped and fushi tarazu expression involve their differential regulation by a common set of segmentation genes in Drosophila

Genes Dev.

(1987)

HillT.L.

Cooperativity Theory in Biochemistry: Steady-State and Equilibrium Systems

(1985)

HopfieldJ.J.

Neurons with graded response have collective computational properties like those of two-state neurons

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^‖: Supported in part by the Air Force Office of Scientific Research under grant AFOSR 88-0240.

^¶: Work supported by the United States Department of Energy.

^††: Supported in part by grant 5-T15-LM07056 from the National Library of Medicine.

^‡‡: Present address and address to which correspondence should be sent.

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Journal of Theoretical Biology

References (26)

Zygotically active genes that affect the spatial expression of the fushi tarazu segmentation gene during early Drosophila embryogenesis

Cell

Spatial harmonics and pattern specification in early Drosophila development. Bifurcation sequences and gene expression

J. theor. Biol.

Scaling, machine learning, and genetic neural nets

Advan. appl. Math.

Control of the initiation of homeotic gene expression by the gap genes giant and tailless in Drosophila

Dev. Biol.

The molecular basis for metameric pattern in the Drosophila embryo

Development

What size net gives valid generalization?

Models of cell adhesion involving specific binding

Expression, function, and regulation of the hairy segmentation protein in the Drosophila embryo

Genes and Development

A genetic switch, based on negative regulation, sharpens stripes in Drosophila embryos

Dev. Gen.

Studies of nuclear and cytoplasmic behaviour during the five mitotic cycles that precede gastrulation in Drosophila embryogenesis

J. Cell Sci.

Complementary patterns of even-skipped and fushi tarazu expression involve their differential regulation by a common set of segmentation genes in Drosophila

Genes Dev.

Cooperativity Theory in Biochemistry: Steady-State and Equilibrium Systems

Neurons with graded response have collective computational properties like those of two-state neurons

Cited by (365)

Evolution of biological cooperation: an algorithmic approach

Approximated Gene Expression Trajectories (AGETs) for Gene Regulatory Network Inference on Cell Tracks

Developmental hourglass: Verification by numerical evolution and elucidation by dynamical-systems theory

Reservoir Computing With Dynamic Reservoir using Cascaded DNA Memristors

Pattern recognition in the nucleation kinetics of non-equilibrium self-assembly

Transition to Multicellularity and Peto Paradox