Li Liang scite author profile

Nonalcoholic fatty liver disease (NAFLD) has become the dominant form of chronic liver disease in children and adolescents with the increasing prevalence of obesity worldwide. NAFLD represents a wide spectrum of conditions, ranging from fatty liver - which generally follows a benign, non-progressive clinical course - to non-alcoholic steatohepatitis, a subset of NAFLD that may progress to cirrhosis and end-stage liver disease or liver carcinoma. The underlying pathophysiological mechanism of “pediatric” NAFLD remains unclear, although it is strongly associated with obesity and insulin resistance. In this review we provide a general overview on the current understanding of NAFLD in children and adolescents, which underpins practice, enabling early diagnosis and appropriate therapeutic intervention for this life-threatening liver disease.

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New Insights into the Genetics ofin VivoInduction of Maternal Haploids, the Backbone of Doubled Haploid Technology in Maize

Prigge

Liang

et al. 2012

150

176

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Haploids and doubled haploid (DH) inbred lines have become an invaluable tool for maize genetic research and hybrid breeding, but the genetic basis of in vivo induction of maternal haploids is still unknown. This is the first study reporting comparative quantitative trait locus (QTL) analyses of this trait in maize. We determined haploid induction rates (HIR) in testcrosses of a total of 1061 progenies of four segregating populations involving two temperate haploid inducers, UH400 (HIR ¼ 8%) and CAUHOI (HIR ¼ 2%), one temperate and two tropical inbreds with HIR ¼ 0%, and up to three generations per population. Mean HIR of the populations ranged from 0.6 to 5.2% and strongly deviated from the midparent values. One QTL (qhir1) explaining up top ¼ 66% of the genetic variance was detected in bin 1.04 in the three populations involving a noninducer parent and the HIR-enhancing allele was contributed by UH400. Segregation ratios of loci in bin 1.04 were highly distorted against the UH400 allele in these three populations, suggesting that transmission failure of the inducer gamete and haploid induction ability are related phenomena. In the CAUHOI · UH400 population, seven QTL were identified on five chromosomes, with qhir8 on chromosome 9 havingp.20% in three generations of this cross. The large-effect QTL qhir1 and qhir8 will likely become fixed quickly during inducer development due to strong selection pressure applied for high HIR. Hence, marker-based pyramiding of small-effect and/or modifier QTL influencing qhir1 and qhir8 may help to further increase HIR in maize. We propose a conceptual genetic framework for inheritance of haploid induction ability, which is also applicable to other dichotomous traits requiring progeny testing, and discuss the implications of our results for haploid inducer development. IN VIVO induction of maternal haploids in maize has paved the way for large-scale production of doubled haploid (DH) inbred lines, which today form the backbone of the global hybrid maize industry. Traditionally, the maize plants' crossbreeding nature required recurrent self-pollinations for 6-10 generations to obtain sufficiently homozygous inbred lines (Hallauer et al. 2010). Application of DH technology reduces the time for inbred development by more than half compared to the traditional method and additionally provides several quantitative genetic, operational, logistical, and economic advantages (Nei 1963;Schmidt 2003;Melchinger et al. 2005;Seitz 2005;Smith et al. 2008;Chang and Coe 2009;Geiger 2009). By using haploid inducer genotypes as pollinators in crosses with source germplasm, ears obtained carry a proportion of seeds containing haploid embryos of maternal origin. Subsequent treatment of haploids with mitotic inhibitors facilitates chromosome duplication resulting in diploid and completely homozygous inbred lines (see Prigge and Melchinger 2012 for a detailed description of DH production).Modern maize inducers have haploid induction rates (HIR) of about 8% on average (e.g., Röber et al. 2005;...

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Mouse Embryonic Stem Cells, but Not Somatic Cells, Predominantly Use Homologous Recombination to Repair Double-Strand DNA Breaks

Tichy

Pillai

Deng

et al. 2010

Stem Cells and Development

140

147

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Embryonic stem (ES) cells give rise to all cell types of an organism. Since mutations at this embryonic stage would affect all cells and be detrimental to the overall health of an organism, robust mechanisms must exist to ensure that genomic integrity is maintained. To test this proposition, we compared the capacity of murine ES cells to repair DNA double-strand breaks with that of differentiated cells. Of the 2 major pathways that repair double-strand breaks, error-prone nonhomologous end joining (NHEJ) predominated in mouse embryonic fibroblasts, whereas the high fidelity homologous recombinational repair (HRR) predominated in ES cells. Microhomology-mediated end joining, an emerging repair pathway, persisted at low levels in all cell types examined. The levels of proteins involved in HRR and microhomology-mediated end joining were highly elevated in ES cells compared with mouse embryonic fibroblasts, whereas those for NHEJ were quite variable, with DNA Ligase IV expression low in ES cells. The half-life of DNA Ligase IV protein was also low in ES cells. Attempts to increase the abundance of DNA Ligase IV protein by overexpression or inhibition of its degradation, and thereby elevate NHEJ in ES cells, were unsuccessful. When ES cells were induced to differentiate, however, the level of DNA Ligase IV protein increased, as did the capacity to repair by NHEJ. The data suggest that preferential use of HRR rather than NHEJ may lend ES cells an additional layer of genomic protection and that the limited levels of DNA Ligase IV may account for the low level of NHEJ activity.

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Effect of lifestyle intervention on non-alcoholic fatty liver disease in Chinese obese children

Wang¹,

Liang²,

Fu³

et al. 2008

WJG

117

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Mitotic recombination produces the majority of recessive fibroblast variants in heterozygous mice

Shao

Deng

Henegariu

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

123

116

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Mice heterozygous at Aprt (adenine phosphoribosyltransferase) were used as a model to study in vivo loss of heterozygosity (LOH) in normal fibroblasts. Somatic cell variants that exhibited functional loss of the wild-type Aprt in vivo were recovered as APRT-deficient cell colonies after culturing in selection medium containing 2,6-diaminopurine (DAP), an adenine analog that is toxic only to cells with APRT enzyme activity. DAP-resistant (DAP r ) fibroblast variants were recovered at a median frequency of 12 ؋ 10 ؊5 from individual ears from progeny of crosses between mouse strains 129͞Sv and C3H͞HeJ. The frequency of DAP r variants varied greatly among individual ears, suggesting that they preexisted in vivo and arose at various times during development. Polymorphic molecular markers and a cytological marker on the centromere of chromosome 8 made it possible to discriminate between each of six possible mechanistic pathways of LOH. The majority (about 80%) of the DAP r variants were a consequence of mitotic recombination. The prevalence of mitotic recombination in regions proximal to Aprt did not correlate with meiotic map distances. In particular, there was a higher than expected frequency of crossovers within the interval 59 cM to 67 cM. The high spontaneous frequency of Aprt LOH, mediated primarily by mitotic recombination, is fully consistent with our previous results with human peripheral T cells from individuals known to be heterozygous at APRT. Thus, this Aprt heterozygote mouse is a valid model for studying somatic mutagenesis and mitotic recombination in vivo.Retinoblastoma is a prototype disease for understanding how loss of function of tumor suppressor genes (TSGs) leads to tumor formation. The so-called two-hit (two-mutational events) model explains elegantly the inheritance of genetic predisposition and development of retinal tumors (1). In familial cases, a preexisting RB1 germ-line mutation (the first hit) is inherited, predisposing the retinoblast cells to tumor development by requiring only a second mutational event (the second hit). In sporadic cases, somatic cells lack the predisposing mutation, and a retinoblast cell must acquire two separate RB1 mutations to progress to a tumor. In the two-hit model, the first hit, a rate-limiting step, renders a cell heterozygous or hemizygous at RB1. The second hit, which is frequently referred to as loss of heterozygosity (LOH), leads to the expression of the RB1 mutant phenotype (2). Because

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Notch activity in neural cells triggered by a mutant allele with altered glycosylation

Liang

Irvine

et al. 2003

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The receptor protein Notch is inactive in neural precursor cells despite neighboring cells expressing ligands. We investigated specification of the R8 neural photoreceptor cells that initiate differentiation of each Drosophila ommatidium. The ligand Delta was required in R8 cells themselves, consistent with a lateral inhibitor function for Delta. By contrast, Delta expressed in cells adjacent to R8 could not activate Notch in R8 cells. The split mutation of Notch was found to activate signaling in R8 precursor cells, blocking differentiation and leading to altered development and neural cell death. split did not affect other, inductive functions of Notch. The Ile578→Thr578 substitution responsible for the split mutation introduced a new site for O-fucosylation on EGF repeat 14 of the Notch extracellular domain. The O-fucose monosaccharide did not require extension by Fringe to confer the phenotype. Our results suggest functional differences between Notch in neural and non-neural cells. R8 precursor cells are protected from lateral inhibition by Delta. The protection is affected by modifications of a particular EGF repeat in the Notch extracellular domain. These results suggest that the pattern of neurogenesis is determined by blocking Notch signaling, as well as by activating Notch signaling.

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Status and trends of diabetes in Chinese children: analysis of data from 14 medical centers

Liang

Gong

et al. 2013

World J Pediatr

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Brief Report: Interferon-γ Induces Expansion of Lin−Sca-1+C-Kit+ Cells

Zhao

Ren²,

Liang

et al. 2009

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Li Liang

Pathogenesis of non-alcoholic fatty liver disease in children and adolescence: From “two hit theory” to “multiple hit model”

New Insights into the Genetics ofin VivoInduction of Maternal Haploids, the Backbone of Doubled Haploid Technology in Maize

Mouse Embryonic Stem Cells, but Not Somatic Cells, Predominantly Use Homologous Recombination to Repair Double-Strand DNA Breaks

Effect of lifestyle intervention on non-alcoholic fatty liver disease in Chinese obese children

Mitotic recombination produces the majority of recessive fibroblast variants in heterozygous mice

Notch activity in neural cells triggered by a mutant allele with altered glycosylation

Status and trends of diabetes in Chinese children: analysis of data from 14 medical centers

Brief Report: Interferon-γ Induces Expansion of Lin−Sca-1+C-Kit+ Cells

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