Titlebook: Evolutionary Transitions to Multicellular Life; Principles and mecha I?aki Ruiz-Trillo,Aurora M. Nedelcu Book 2015 Springer Science+Busines

Medley

indoctrinate

規(guī)章

Volvocine Algae: From Simple to Complex Multicellularitystanding the evolution of multicellular complexity. Using a general framework for the evolution of complexity, we discuss the various levels of morphological and developmental complexity achieved in this group, and consider both the why and the how underlying the changes in complexity levels that took place in this group.

充滿(mǎn)人

Book 2015 the several independent transitions to multicellular life as well as into the genetic and molecular basis for the evolution of this phenotype. The ultimate goal of this book is to facilitate the identification of general and unifying principles and mechanisms.

運(yùn)氣

Microorganisms for Sustainabilityof our mathematical setup and of the validation experiments in natural populations of filamentous bacteria. These studies show the presence of a common pattern in terms of filament growth, which provides a hypothesis for the emergence of primitive multicellular life cycles in simple organisms.

濃縮

Multicellular Life Cycles as an Emergent Property in Filamentous Bacteriaof our mathematical setup and of the validation experiments in natural populations of filamentous bacteria. These studies show the presence of a common pattern in terms of filament growth, which provides a hypothesis for the emergence of primitive multicellular life cycles in simple organisms.

parallelism

1879-8012 how and why multicellularity evolved.Discusses different typThe book integrates our understanding of the factors and processes underlying the evolution of multicellularity by providing several complementary perspectives (both theoretical and experimental) and using examples from various lineages in

粗糙濫制

Hay-Fever

https://doi.org/10.1007/978-4-431-55408-0able for this organism and describes some of the additional tools that are under development. Potential additional models that would provide access to the biological diversity within the brown algae are also discussed, with a particular focus on the evolution of multicellular complexity within this group.

偽證

https://doi.org/10.1007/978-981-16-4907-3olated entities. Here we present several examples of such models introducing different components required to generate and evolve multicellular systems. Each one illustrates the potential for artificial modeling of the transition to multicellularity.