Ying Li scite author profile

A new type of alkalide compound, Li+(calix[4]pyrrole)M- (M = Li, Na, and K), is presented in theory, which may be stable at room temperature. It has been shown by our calculations that the first hyperpolarizability (beta) is considerably large by means of the density functional theory method. The beta values are determined at the B3LYP/6-311++G level (for the alkali atoms the 6-311++G(3df) basis set is employed) as 8.9 x 103, 1.0 x 104, and 2.4 x 104 au for M = Li, Na, and K, respectively. These beta values are much larger than that of electride Li+(calix[4]pyrrole)e- (beta = 7.3 x 103 au) by a factor of 1.2 to 3.4. Comparing to the cryptand calix[4]pyrrole, the beta values of Li+(calix[4]pyrrole)M- are enhanced by 20-60 times. It is revealed, for the first time, that the beta value of alkalide compounds depends on the atomic number of the alkali anion, and it can be enhanced by choosing the akali anions with larger atomic numbers. The alkali anion in the alkalide compound decreases the transition energy and also increases the oscillator strength of the main transition, consequently the beta value is enhanced. This study proposes such a novel way to synthesize and design new NLO materials by using the alkali atom with a larger atomic number to create an anion in alkalide compounds.

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Dynamic interaction between TAL1 oncoprotein and LSD1 regulates TAL1 function in hematopoiesis and leukemogenesis

Deng

et al. 2012

Oncogene

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TAL1/SCL is a hematopoietic specific oncogene and its activity is regulated by associated transcriptional coactivators and corepressors. Dysregulation of TAL1 activity has been associated with T cell leukemogenesis. However, it remains unclear how the interactions between TAL1 and corepressors versus coactivators are properly regulated. Here we reported that PKA mediated phosphorylation regulates TAL1 interaction with the lysine specific demethylase (LSD1) that removes methyl group from methylated Lys 4 on histone H3 tails. Phosphorylation of serine 172 in TAL1 specifically destabilizes the TAL1-LSD1 interaction leading to promoter H3K4 hypermethylation and activation of target genes that have been suppressed in normal and malignant hematopoiesis. Knockdown of TAL1 or LSD1 led to a derepression of the TAL1 target genes in T cell acute lymphoblast leukemia (T-ALL) Jurkat cells, which is accompanied by elevating promoter H3K4 methylation. Similarly, treatment of PKA activator forskolin resulted in derepression of target genes by reducing its interaction with LSD1 while PKA inhibitor H89 represses them by suppressing H3K4 methylation levels. Consistent with the dual roles of TAL1 in transcription, TAL1 associated LSD1 is decreased while recruitment of hSET1 is increased at the TAL1 targets during erythroid differentiation. This process is accompanied by a dramatic increase in H3K4 methylation. Thus, our data revealed a novel interplay between PKA phosphorylation and TAL1 mediated epigenetic regulation that regulates hematopoietic transcription and differentiation programs during hematopoiesis and leukemogenesis.

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Ying Li

Insight into structural and π–magnesium bonding characteristics of the X₂Mg⋯Y (X = H, F; Y = C₂H₂, C₂H₄and C₆H₆) complexes

Nonlinear Optical Properties of Alkalides Li⁺(calix[4]pyrrole)M^- (M = Li, Na, and K): Alkali Anion Atomic Number Dependence

Dynamic interaction between TAL1 oncoprotein and LSD1 regulates TAL1 function in hematopoiesis and leukemogenesis

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Ying Li

Insight into structural and π–magnesium bonding characteristics of the X2Mg⋯Y (X = H, F; Y = C2H2, C2H4and C6H6) complexes

Nonlinear Optical Properties of Alkalides Li+(calix[4]pyrrole)M- (M = Li, Na, and K): Alkali Anion Atomic Number Dependence

Dynamic interaction between TAL1 oncoprotein and LSD1 regulates TAL1 function in hematopoiesis and leukemogenesis

Contact Info

Product

Resources

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Insight into structural and π–magnesium bonding characteristics of the X₂Mg⋯Y (X = H, F; Y = C₂H₂, C₂H₄and C₆H₆) complexes

Nonlinear Optical Properties of Alkalides Li⁺(calix[4]pyrrole)M^- (M = Li, Na, and K): Alkali Anion Atomic Number Dependence