Browsing by Author "Li, Jing"
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Item Compact engineered human mechanosensitive transactivation modules enable potent and versatile synthetic transcriptional control(Springer Nature, 2023) Mahata, Barun; Cabrera, Alan; Brenner, Daniel A.; Guerra-Resendez, Rosa Selenia; Li, Jing; Goell, Jacob; Wang, Kaiyuan; Guo, Yannie; Escobar, Mario; Parthasarathy, Abinand Krishna; Szadowski, Hailey; Bedford, Guy; Reed, Daniel R.; Kim, Sunghwan; Hilton, Isaac B.Engineered transactivation domains (TADs) combined with programmable DNA binding platforms have revolutionized synthetic transcriptional control. Despite recent progress in programmable CRISPR–Cas-based transactivation (CRISPRa) technologies, the TADs used in these systems often contain poorly tolerated elements and/or are prohibitively large for many applications. Here, we defined and optimized minimal TADs built from human mechanosensitive transcription factors. We used these components to construct potent and compact multipartite transactivation modules (MSN, NMS and eN3x9) and to build the CRISPR–dCas9 recruited enhanced activation module (CRISPR-DREAM) platform. We found that CRISPR-DREAM was specific and robust across mammalian cell types, and efficiently stimulated transcription from diverse regulatory loci. We also showed that MSN and NMS were portable across Type I, II and V CRISPR systems, transcription activator-like effectors and zinc finger proteins. Further, as proofs of concept, we used dCas9-NMS to efficiently reprogram human fibroblasts into induced pluripotent stem cells and demonstrated that mechanosensitive transcription factor TADs are efficacious and well tolerated in therapeutically important primary human cell types. Finally, we leveraged the compact and potent features of these engineered TADs to build dual and all-in-one CRISPRa AAV systems. Altogether, these compact human TADs, fusion modules and delivery architectures should be valuable for synthetic transcriptional control in biomedical applications.Item Disaggregating Ethnicity and National Origin: Educational Heterogeneity among Vietnamese and Chinese Americans across Immigrant Generations(Sage, 2022) Li, Jing; Min, JieScholars often treat immigrants from the same country as a monolithic group, but intranational ethnicity is usually associated with distinctive premigration backgrounds and migration experiences and plays a role in shaping immigrant adjustment and incorporation in the host country. The authors use census data to distinguish ethnic Chinese from the Vietnamese national group to analyze educational heterogeneity across immigration generations. The results show that first-generation Chinese Vietnamese exhibit much lower levels of education than their Vietnamese counterparts, but this disparity vanishes by the 1.5 generation. The authors also find that both Vietnamese subgroups contribute to the second-generation convergence with Chinese Americans, but Chinese Vietnamese are able to overcome disadvantages more quickly and have slightly higher educational achievement than ethnic Vietnamese. Our case study illustrates how ethnicity and national origin can be disaggregated using nationally representative data and how this approach can provide unique insights into immigration studies in general.Item Programmable human histone phosphorylation and gene activation using a CRISPR/Cas9-based chromatin kinase(Springer Nature, 2021) Li, Jing; Mahata, Barun; Escobar, Mario; Goell, Jacob; Wang, Kaiyuan; Khemka, Pranav; Hilton, Isaac B.Histone phosphorylation is a ubiquitous post-translational modification that allows eukaryotic cells to rapidly respond to environmental stimuli. Despite correlative evidence linking histone phosphorylation to changes in gene expression, establishing the causal role of this key epigenomic modification at diverse loci within native chromatin has been hampered by a lack of technologies enabling robust, locus-specific deposition of endogenous histone phosphorylation. To address this technological gap, here we build a programmable chromatin kinase, called dCas9-dMSK1, by directly fusing nuclease-null CRISPR/Cas9 to a hyperactive, truncated variant of the human MSK1 histone kinase. Targeting dCas9-dMSK1 to human promoters results in increased target histone phosphorylation and gene activation and demonstrates that hyperphosphorylation of histone H3 serine 28 (H3S28ph) in particular plays a causal role in the transactivation of human promoters. In addition, we uncover mediators of resistance to the BRAF V600E inhibitor PLX-4720 in human melanoma cells using genome-scale screening with dCas9-dMSK1. Collectively, our findings enable a facile way to reshape human chromatin using CRISPR/Cas9-based epigenome editing and further define the causal link between histone phosphorylation and human gene activation.Item Quantification of Genome Editing and Transcriptional Control Capabilities Reveals Hierarchies among Diverse CRISPR/Cas Systems in Human Cells(American Chemical Society, 2022) Escobar, Mario; Li, Jing; Patel, Aditi; Liu, Shizhe; Xu, Qi; Hilton, Isaac B.CRISPR/Cas technologies have revolutionized the ability to redesign genomic information and tailor endogenous gene expression. Nevertheless, the discovery and development of new CRISPR/Cas systems has resulted in a lack of clarity surrounding the relative efficacies among these technologies in human cells. This deficit makes the optimal selection of CRISPR/Cas technologies in human cells unnecessarily challenging, which in turn hampers their adoption, and thus ultimately limits their utility. Here, we designed a series of endogenous testbed systems to methodically quantify and compare the genome editing, CRISPRi, and CRISPRa capabilities among 10 different natural and engineered Cas protein variants spanning Type II and Type V CRISPR/Cas families. We show that although all Cas protein variants are capable of genome editing and transcriptional control in human cells, hierarchies exist, particularly for genome editing and CRISPRa applications, wherein Cas9 ≥ Cas12a > Cas12e/Cas12j. Our findings also highlight the utility of our modular testbed platforms to rapidly and systematically quantify the functionality of practically any natural or engineered genomic-targeting Cas protein in human cells.Item Rhetoric and reality: The making of Chinese perceptions of the United States, 1949-1989(1995) Li, Jing; Smith, Richard J.When the people of a given society contemplate the outside world, they do so with inherited but constantly changing values, assumptions, preoccupations, and aspirations. Who they are, one might say, largely determines what they perceive. For a variety of reasons, the Chinese have long had a fascination with the United States--a country which has not only been an active participant in Chinese affairs for well over a century, but which has also served as an idea and an example. Naturally, China's direct and indirect experiences with America, together with the vast cultural and political differences that still separate the two countries, have shaped Chinese perceptions. In China's search for a new political, social and economic order, America, as both a world power and as a concept, has played a major role. This dissertation examines the way images of America were transmitted to China in the twentieth century, and how these images were debated and represented (or misrepresented) by three main social groups of Chinese--the Chinese state, Chinese intellectuals, and the Chinese masses. Although America has unquestionably played a part in shaping modern China, the Chinese, for various reasons and in different ways, have constructed their own distinctive "America."Item Single C-to-T substitution using engineered APOBEC3G-nCas9 base editors with minimum genome- and transcriptome-wide off-target effects(American Association for the Advancement of Science, 2020) Lee, Sangsin; Ding, Ning; Sun, Yidi; Yuan, Tanglong; Li, Jing; Yuan, Qichen; Liu, Lizhong; Yang, Jie; Wang, Qian; Kolomeisky, Anatoly B.; Hilton, Isaac B.; Zuo, Erwei; Gao, Xue; Center for Theoretical and Biological PhysicsCytosine base editors (CBEs) enable efficient cytidine-to-thymidine (C-to-T) substitutions at targeted loci without double-stranded breaks. However, current CBEs edit all Cs within their activity windows, generating undesired bystander mutations. In the most challenging circumstance, when a bystander C is adjacent to the targeted C, existing base editors fail to discriminate them and edit both Cs. To improve the precision of CBE, we identified and engineered the human APOBEC3G (A3G) deaminase; when fused to the Cas9 nickase, the resulting A3G-BEs exhibit selective editing of the second C in the 5′-CC-3′ motif in human cells. Our A3G-BEs could install a single disease-associated C-to-T substitution with high precision. The percentage of perfectly modified alleles is more than 6000-fold for disease correction and more than 600-fold for disease modeling compared with BE4max. On the basis of the two-cell embryo injection method and RNA sequencing analysis, our A3G-BEs showed minimum genome- and transcriptome-wide off-target effects, achieving high targeting fidelity.Item Systematic comparison of CRISPR-based transcriptional activators uncovers gene-regulatory features of enhancer–promoter interactions(Oxford University Press, 2022) Wang, Kaiyuan; Escobar, Mario; Li, Jing; Mahata, Barun; Goell, Jacob; Shah, Spencer; Cluck, Madeleine; Hilton, Isaac BNuclease-inactivated CRISPR/Cas-based (dCas-based) systems have emerged as powerful technologies to synthetically reshape the human epigenome and gene expression. Despite the increasing adoption of these platforms, their relative potencies and mechanistic differences are incompletely characterized, particularly at human enhancer–promoter pairs. Here, we systematically compared the most widely adopted dCas9-based transcriptional activators, as well as an activator consisting of dCas9 fused to the catalytic core of the human CBP protein, at human enhancer–promoter pairs. We find that these platforms display variable relative expression levels in different human cell types and that their transactivation efficacies vary based upon the effector domain, effector recruitment architecture, targeted locus and cell type. We also show that each dCas9-based activator can induce the production of enhancer RNAs (eRNAs) and that this eRNA induction is positively correlated with downstream mRNA expression from a cognate promoter. Additionally, we use dCas9-based activators to demonstrate that an intrinsic transcriptional and epigenetic reciprocity can exist between human enhancers and promoters and that enhancer-mediated tracking and engagement of a downstream promoter can be synthetically driven by targeting dCas9-based transcriptional activators to an enhancer. Collectively, our study provides new insights into the enhancer-mediated control of human gene expression and the use of dCas9-based activators.