Ai Feedback
Exact(8)
Nodes then represent molecules, and edges are drawn between two nodes if the corresponding molecules have a similarity higher than a given threshold.
In these networks, nodes represent genes, proteins or small molecules, and edges represent molecular interactions.
These models are made up of nodes representing genes, proteins or other molecules and edges that stand for the regulatory interactions among these elements [ 37].
GRNs are usually modeled as graphs with nodes representing system components (e.g. molecules) and edges indicating interactions between components [ 1, 4, 5].
In directed networks, the nodes are molecules and edges represent causal biological interactions, such as the transcription and translation regulations [5].
One of these representations are chemical graphs, with nodes corresponding to the atoms of the molecules and edges indicating the bonds between them.
Similar(52)
The L 1 and L 2 components belong to defects of fullerene (or fullerene-like) molecules and edge carbon atoms at the carbon flakes.
Networks are graphically represented by nodes with various shapes (according to the molecule type) and edges (according to their biological relationships).
This similarity matrix can be transformed into a fully connected network constituted by molecules as nodes and edges connecting them.
In a molecular graph, the vertices represent the atoms of the molecule and the edges are chemical bonds.
The chemical structure of molecules can be represented as a graph, where atoms and bonds in molecules correspond to vertices and edges, respectively, in graphs.
Related(19)
pathways and edges
elements and edges
species and edges
cores and edges
sequences and edges
genes and edges
atoms and edges
particles and edges
compounds and edges
molecules and drugs
molecules and proteins
molecules and cells
molecules and mechanisms
molecules and elements
molecules and atoms
molecules and electrons
molecules and groups
molecules and films
molecules and expands
Write better and faster with AI suggestions while staying true to your unique style.
Since I tried Ludwig back in 2017, I have been constantly using it in both editing and translation. Ever since, I suggest it to my translators at ProSciEditing.

Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com