So a ballpark answer might be “at least 50 times harder”.
The “at least” part seems wrong to me. Cellular differentiation works by deactivating some genes more-or-less permanently and by sequestering deactivated genes in densely packed regions of chromatin that are inaccessible to transcription complexes. (This is a one-sentence summary of an absurdly complex biological process. You have been warned.) Understanding the functional molecular biology of a highly differentiated cell type like a neuron won’t require the understanding of 30K interacting genes.
The “at least” part seems wrong to me. Cellular differentiation works by deactivating some genes more-or-less permanently and by sequestering deactivated genes in densely packed regions of chromatin that are inaccessible to transcription complexes. (This is a one-sentence summary of an absurdly complex biological process. You have been warned.) Understanding the functional molecular biology of a highly differentiated cell type like a neuron won’t require the understanding of 30K interacting genes.
Good point. Is anything known about what proportion of genes might be turned off in a differentiated cell?
Lots, but not by me at this time.