The Hardwiring of development: organization and function of genomic regulatory systems Maria I....
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Transcript of The Hardwiring of development: organization and function of genomic regulatory systems Maria I....
The Hardwiring of development: organization and function of genomic regulatory systems
Maria I. Arnone and Eric H. Davidson
Outline:
• Introduction
• Properties of CIS-Regulatory Systems
• Gene Regulatory Networks
• Conclusion and Summary
Introduction
• Regulatory program is hardwired into genomic DNA sequence
• CIS-regulatory target sites are recognized sequences-specifically by T.F
• Control Rate, activation, repression, time and morphological space
• Reveals internal working and interconnections i.e., structure of gene regulatory network
• CIS-regulatory systems are complex
• Objective is to understand the flow of regulatory information from the genome to understand development
• Inputs and outputs studied…., but…
• To find out how genomic regulatory systems really work, examination of the CIS sequence themselves is necessary
Properties of CIS-Regulatory Systems
• Regulatory modules: Separate CIS elements, multiple T.F target sites
• Can transmit output to BTA• Communication achieved by T.F anchored or
proteins that bind T.F• Long distance achieved by DNA looping• Works with promoters i.e. platform on which BTA
assembles• Novel expression constructs can be created
Intramodular Complexity
• Complexity is number of diverse interactions, i.e., T.F bound per module
• Most cases complexity is underestimated
• Avg. # of interactions is 6.2
• Factors are of diverse chemical nature, no modules serviced by only homeodomain proteins or Zn finger proteins.
Significance of DNA-protein interactions detected in vitro
• Does binding imply significance?• Three reasons
– Equilibrium constants– When affinity is low, cooperative interactions stabilize
it– Length of sequence protected by bound T.F specify
these sites uniquelyVarious experiments done to show that sequence
preference of T.F for its target site is at least 5-10*103 Interference produces distinct phenotypeTherefore target site code in CIS region is meaningful at
this specificity.
Positive and Negative functions of factors binding within cis-regulatory modules
• Modular elements target of T.F with diverse functions
• Focus on activation and repression• Maternal factors in embryo• Mutation in repressor modules => ectopic
expression• Mutation in activator target sites => lower level
of normal expression• Activators and repressors act in conjunction to
regulate genes
Programming communication within complex cis-regulatory systems
• Many CIS regulatory elements interact at both near and far distances, ex: by forming loops
• Dwell time for the complexes is 15-80mins• Proximal CIS-regulatory modules process
outputs of distally located modules• Interactions increase diversity of control
functions of CIS system• Looping occurs due to affinity of proteins• Intermodular communication is therefore
hardwired
Cis-regulatory organization as an index of developmental role
• Goal is to use cis-regulatory target sites to predict role in regulation and position in network.
• Modules that interpret embryonic spatial specification bind activators and repressors
• Ones that use only positive regulators likely to act downstream
• T.F confined to spatial domains and serve as activators in downstream genes in particular regions
• CIS regulators of these genes may operate by activation as well as repression
Gene Regulatory Networks
• Linkage between different cis-regulatory systems together with genes that they govern
• Batteries of genes that encode cell-type-specific differentiation proteins
• Linkage between genes that encode T.F and differentiation proteins
Gene batteries
• Sets of genes expressed in different stages of development• Genes that are coordinately expressed because their cis-
regulatory sequences share homologous sites for TF• But, TF for which genes of a battery share sites are not cell-
type specific• Order and spacing of target sites not alike in any two genes
of same cell type• Reflects lack of functions constraint i.e. spacing and order• Battery relations can only be elucidated by direct analysis
• Analysis of batteries will help to go from protein of known function to interior of gene regulatory network
General Considerations
• Peripheral and internal network elements:– Linkage to CIS only upstream or both upstream and
downstream i.e. TF
Network and Casual relationships:- Refer to figure
Multilevel connections:- Downstream connections from internal genes to
peripheral genes- Autoregulatory connections - Therefore network cannot be considered hierarchical
View from the genome and View from the nucleus
• Figures show view from genome
• View from nucleus describes developmental state
• CIS region may be fully loaded, partially loaded or empty depending on state of cell
• Per-genome networks have no temporal dependence
• Per-nuclear networks depend on time
Complexity of developmental gene regulation
• # of linkages upstream from a cis-regulatory system
• Integration of spatial information to regulate TF during growth and cellular expansion
• Complex network linkages even in early developmental stages
• Initially transcribed peripheral genes from maternal effect may have shallow regulatory network and therefore may be within reach for regulatory analysis