Zhang has published more than 170 highly influential papers. These studies have been cited over 65,000 times, making him one of the top 10 authors of high impact papers in the fields of molecular biology and genetics, and one of the "most influential scientific minds". He was also a Founder of Epizyme, and NewStem. His current efforts are focused on the molecular mechanism of embryonic development & reprogramming, brain reward-related learning & memory, pancreatic cancer. Zhang has made several landmark discoveries in the fields of epigenetics, chromatin and developmental reprogramming.
Zhang was the first to systematically identify and characterize six histone methyltransferases, including the H4R3 methyltransferase PRMT1, the H3K79 methyltransferase Dot1L, and the H3K27me3 methyltransferase EZH2/PRC2. He went on to demonstrate the function of H3K27me3 methylation in X chromosome inactivation, genomic imprinting, and non-coding RNA regulation. He was also the first to uncover PRC1 as an E3 ligase mediating H2A ubiquitylation. By discovering two enzymatic activities of two PcG protein complexes, Zhang has contributed significantly to our current understanding of the PcG silencing mechanism.
Zhang was the first to show JmjC domain is a signature motif for histone demethylases. He not only worked out the demethylation mechanism, but also demonstrated that JmjC demethylases can demethylate trimethyl state. Zhang went on to show the diverse function of histone demethylases in spermatogenesis, metabolism, cancer, iPSC generation, and somatic cell nuclear transfer reprogramming. The last finding overcomes a major barrier in SCNT cloning, contributing to the success of the first primate cloning by a team of Chinese scientists
Zhang not only discovered 5-formylcytosine, and 5-carboxylcytosine in mammalian genomic DNA, but also elucidated the DNA demethylation mechanism by demonstrating that Tet proteins can sequentially oxidize 5-methylcytosine to 5-hydroxymethylcytosine, 5fC, and 5caC in a cyclic manner in mouse embryonic stem cells. He continued to reveal the function of Tet proteins in zygotic DNA demethylation, germ cell development, and genomic imprinting erasure
Zhang contributed to the understanding of the molecular events during mammalian embryogenesis by uncovering an important function of de novo nucleosome assembly in nuclear pore complex formation, identifying key factors for zygotic genome activation, revealing a new mechanism of genomic imprinting and imprinted X-inactivation, as well as the role of this new imprinting mechanism in SCNT cloning
