| circRNAs in Cancer |
77 |
| Role of N-6-methyladenosine modification in cancer |
38 |
| The long and short of doubling down: polyploidy, epigenetics, and the temporal dynamics of genome fractionation |
25 |
| Satellite DNA evolution: old ideas, new approaches |
24 |
| Emerging roles of microRNAs in cancer |
24 |
| Nonsense-mediated mRNA Decay and Cancer |
23 |
| The role of long noncoding RNAs in cancer: the dark matter matters |
21 |
| The role of alternative splicing in cancer drug resistance |
20 |
| The genetics of adiposity |
19 |
| Cross-talk between protein synthesis, energy metabolism and autophagy in cancer |
17 |
| The role of A-to-I RNA editing in cancer development |
16 |
| Genome organization around nuclear speckles |
15 |
| Role of H3K9me3 heterochromatin in cell identity establishment and maintenance |
14 |
| Targeting splicing abnormalities in cancer |
14 |
| Horizontal acquisition of transposable elements and viral sequences: patterns and consequences |
13 |
| Something old, something borrowed: admixture and adaptation in human evolution |
12 |
| Genetics of type 1 diabetes |
11 |
| Integrating chemical and mechanical signals in neural crest cell migration |
11 |
| Transposable elements: all mobile, all different, some stress responsive, some adaptive? |
10 |
| Progress in defining the genetic contribution to type 2 diabetes susceptibility |
10 |
| Genetic syndromes of severe insulin resistance |
9 |
| Tissue and cellular mechanics of seeds |
9 |
| Spatial chromatin organization and gene regulation at the nuclear lamina |
9 |
| Cellular trajectories and molecular mechanisms of iPSC reprogramming |
9 |
| Implications of liquid-liquid phase separation in plant chromatin organization and transcriptional control |
9 |
| Non-viral therapeutic cell engineering with the Sleeping Beauty transposon system |
9 |
| Expanding horizons: new roles for non-canonical RNA-binding proteins in cancer |
9 |
| Transposable elements, genome evolution and transgenerational epigenetic variation |
8 |
| Microbial multicellular development: mechanical forces in action |
8 |
| Organoid models for translational pancreatic cancer research |
8 |
| Loop formation by SMC complexes: turning heads, bending elbows, and fixed anchors |
8 |
| RNA regulons in cancer and inflammation |
8 |
| Clinical and research uses of genetic risk scores in type 1 diabetes |
7 |
| Diversity and evolution of actin-dependent phenotypes |
7 |
| The fate of obligate endosymbionts: reduction, integration, or extinction |
7 |
| Cell mechanics of pollen tube growth |
7 |
| Renal ciliopathies |
7 |
| Genetic interaction networks in cancer cells |
7 |
| The evolutionary history of human populations in Europe |
7 |
| Human adaptation to extreme environmental conditions |
7 |
| The critical needs and challenges for genetic architecture studies in Africa |
7 |
| Clarifying distinct models of modern human origins in Africa |
7 |
| Centromeric retrotransposons and centromere function |
7 |
| Transposable elements and polyploid evolution in animals |
7 |
| Chromatin folding and nuclear architecture: PRC1 function in 3D |
7 |
| Studying cellular heterogeneity and drug sensitivity in colorectal cancer using organoid technology |
7 |
| The identification of genes involved in the evolution of color patterns in fish |
7 |
| Bioelectrical controls of morphogenesis: from ancient mechanisms of cell coordination to biomedical opportunities |
7 |
| Transposon control mechanisms in telomere biology |
7 |
| Ribosome biogenesis and cancer: basic and translational challenges |
7 |
