Abstract
Hepatocellular carcinoma (HCC) is a primary liver cancer with poor survival rates. Gene expression data
of HCC are investigated to screen target genes and core genes, which are employed to propose a new
strategy for the treatment of HCC. New concepts such as gene data streams, gene characteristic strength
(CS), gene impact factor (GIF) and gene force (GF) are proposed. Together with gene community network
(GCN), a novel algorithm, that is, called gene force algorithm (GFA), is presented to screen feature genes,
target genes and core genes. The fifteen target genes are obtained, which can be divided into three
clustering sets including HAMP Cluster = HAMP, Trans, AQP4, VIPR1, MT Cluster =MT1H, MT1B,
MT1G, MT1E, MTIL, RNAHP, DNASE1L3 and GPC3 Cluster =GPC3. The core genes of each clusters
are HAMP, Metallothionein genes (MTs) and GPC3 respectively, where MTs is a general name for a group
of metallothionein genes. According to the relationship between the three core genes and the metals
including copper, iron and zinc, a treatment strategy for HCC is proposed, namely, "Supplement Zinc after
surgery" for HCC patients. The proposed treatment method can be used to regulate the expression levels of
HCC core genes.
Users
Please
log in to take part in the discussion (add own reviews or comments).