Your search keyword '"Liang Hu"' showing total 16 results

1. A CUC1/auxin genetic module links cell polarity to patterned tissue growth and leaf shape diversity in crucifer plants.

Author

Zi-Liang Hu, Wilson-Sánchez, David, Bhatia, Neha, Rast-Somssich, Madlen I., Anhui Wu, Vlad, Daniela, McGuire, Liam, Nikolov, Lachezar A., Laufs, Patrick, Xiangchao Gan, Laurent, Stefan, Runions, Adam, and Tsiantis, Miltos

Subjects

*CELL polarity, *PLANT diversity, *TRANSCRIPTION factors, *LEAF anatomy, *MODULAR design, LEAF growth

Abstract

How tissue-level information encoded by fields of regulatory gene activity is translated into the patterns of cell polarity and growth that generate the diverse shapes of different species remains poorly understood. Here, we investigate this problem in the case of leaf shape differences between Arabidopsis thaliana, which has simple leaves, and its relative Cardamine hirsuta that has complex leaves divided into leaflets. We show that patterned expression of the transcription factor CUP-SHAPED COTYLEDON1 in C. hirsuta (ChCUC1) is a key determinant of leaf shape differences between the two species. Through inducible genetic perturbations, time-lapse imaging of growth, and computational modeling, we find that ChCUC1 provides instructive input into auxin-based leaf margin patterning. This input arises via transcriptional regulation of multiple auxin homeostasis components, including direct activation of WAG kinases that are known to regulate the polarity of PIN-FORMED auxin transporters. Thus, we have uncovered a mechanism that bridges biological scales by linking spatially distributed and species-specific transcription factor expression to cell-level polarity and growth, to shape diverse leaf forms. [ABSTRACT FROM AUTHOR]

Published

2024

2. Cancer in the parasitic protozoans Trypanosoma brucei and Toxoplasma gondii

Author

Lun, Zhao-Rong, Lai, De-Hua, Wen, Yan-Zi, Zheng, Ling-Ling, Shen, Ji-Long, Yang, Ting-Bo, Zhou, Wen-Liang, Qu, Liang-Hu, Hide, Geoff, and Ayala, Francisco J

Subjects

Vector-Borne Diseases, Cancer, Rare Diseases, Prevention, Emerging Infectious Diseases, Biotechnology, Infectious Diseases, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Aetiology, Good Health and Well Being, Animals, Cell Proliferation, Humans, Life Cycle Stages, Models, Biological, Mutation, Neoplasm Metastasis, Neoplasms, Parasites, Toxoplasma, Trypanosoma brucei brucei, malignancy, single-cell organisms, mammals, evolution, transmissible

Abstract

Cancer is a general name for more than 100 malignant diseases. It is postulated that all cancers start from a single abnormal cell that grows out of control. Untreated cancers can cause serious consequences and deaths. Great progress has been made in cancer research that has significantly improved our knowledge and understanding of the nature and mechanisms of the disease, but the origins of cancer are far from being well understood due to the limitations of suitable model systems and to the complexities of the disease. In view of the fact that cancers are found in various species of vertebrates and other metazoa, here, we suggest that cancer also occurs in parasitic protozoans such as Trypanosoma brucei, a blood parasite, and Toxoplasma gondii, an obligate intracellular pathogen. Without treatment, these protozoan cancers may cause severe disease and death in mammals, including humans. The simpler genomes of these single-cell organisms, in combination with their complex life cycles and fascinating life cycle differentiation processes, may help us to better understand the origins of cancers and, in particular, leukemias.

Published

2015

3. Both endo-siRNAs and tRNA-derived small RNAs are involved in the differentiation of primitive eukaryote Giardia lamblia

Author

Liao, Jian-You, Guo, Yan-Hua, Zheng, Ling-Ling, Li, Yan, Xu, Wen-Li, Zhang, Yu-Chan, Zhou, Hui, Lun, Zhao-Rong, Ayala, Francisco J, and Qu, Liang-Hu

Subjects

Vaccine Related, Genetics, Generic health relevance, Base Sequence, Evolution, Molecular, Genome, Protozoan, Giardia lamblia, High-Throughput Nucleotide Sequencing, Models, Genetic, Nucleic Acid Conformation, RNA, Protozoan, RNA, Small Interfering, RNA, Transfer, Retroelements, Transcriptome, ncRNA sRNA-generating region, development, RNA regulation, single-cell parasite

Abstract

Small RNAs (sRNAs), including microRNAs and endogenous siRNAs (endo-siRNAs), regulate most important biologic processes in eukaryotes, such as cell division and differentiation. Although sRNAs have been extensively studied in various eukaryotes, the role of sRNAs in the early emergence of eukaryotes is unclear. To address these questions, we deep sequenced the sRNA transcriptome of four different stages in the differentiation of Giardia lamblia, one of the most primitive eukaryotes. We identified a large number of endo-siRNAs in this fascinating parasitic protozoan and found that they were produced from live telomeric retrotransposons and three genomic regions (i.e., endo-siRNA generating regions [eSGRs]). eSGR-derived endo-siRNAs were proven to target mRNAs in trans. Gradual up-regulation of endo-siRNAs in the differentiation of Giardia suggested that they might be involved in the regulation of this process. This hypothesis was supported by the impairment of the differentiation ability of Giardia when GLDICER, essential for the biogenesis of endo-siRNAs, was knocked down. Endo-siRNAs are not the only sRNA regulators in Giardia differentiation, because a great number of tRNAs-derived sRNAs showed more dramatic expression changes than endo-siRNAs in this process. We totally identified five novel kinds of tRNAs-derived sRNAs and found that the biogenesis in four of them might be correlated with that of stress-induced tRNA-derived RNA (sitRNA), which was discovered in our previous studies. Our studies reveal an unexpected complex panorama of sRNA in G. lamblia and shed light on the origin and functional evolution of eukaryotic sRNAs.

Published

2014

4. Pseudogene-derived small interference RNAs regulate gene expression in African Trypanosoma brucei

Author

Wen, Yan-Zi, Zheng, Ling-Ling, Liao, Jian-You, Wang, Ming-Hui, Wei, Ying, Guo, Xue-Min, Qu, Liang-Hu, Ayala, Francisco J, and Lun, Zhao-Rong

Subjects

Biotechnology, Genetics, Vector-Borne Diseases, Good Health and Well Being, Gene Expression Regulation, Genes, Protozoan, Pseudogenes, RNA, Small Interfering, Trypanosoma brucei brucei, sleeping sickness, Nagana, high through-put sequencing, noncoding RNAs, gene regulation

Abstract

Pseudogenes have been shown to acquire unique regulatory roles from more and more organisms. We report the observation of a cluster of siRNAs derived from pseudogenes of African Trypanosoma brucei using high through-put analysis. We show that these pseudogene-derived siRNAs suppress gene expression through RNA interference. The discovery that siRNAs may originate from pseudogenes and regulate gene expression in a unicellular eukaryote provides insights into the functional roles of pseudogenes and into the origin of noncoding small RNAs.

Published

2011

5. Phylogeny, Evolution, and Biogeography of Asiatic Salamanders (Hynobiidae)

Author

Zhang, Peng, Chen, Yue-Qin, Zhou, Hui, Liu, Yi-Fei, Wang, Xiu-Ling, Papenfuss, Theodore J., Wake, David B., and Qu, Liang-Hu

Published

2006

6. Partial Phylogeny of the Unicellular Eukaryotes Based on Rapid Sequencing of a Portion of 28S Ribosomal RNA

Author

Baroin, Anne, Perasso, Roland, Qu, Liang-Hu, Brugerolle, Guy, Bachellerie, Jean-Pierre, and Adoutte, André

Published

1988

7. Modular, stereocontrolled C

Author

Ming, Shang, Karla S, Feu, Julien C, Vantourout, Lisa M, Barton, Heather L, Osswald, Nobutaka, Kato, Kerstin, Gagaring, Case W, McNamara, Gang, Chen, Liang, Hu, Shengyang, Ni, Paula, Fernández-Canelas, Miao, Chen, Rohan R, Merchant, Tian, Qin, Stuart L, Schreiber, Bruno, Melillo, Jin-Quan, Yu, and Phil S, Baran

Subjects

carboxylic acids, Chemistry, PNAS Plus, decarboxylative cross-coupling, Physical Sciences, C–H activation, modular, stereocontrolled

Abstract

Significance The combination of two newly emerging methods for chemical synthesis enables access to molecular space that was previously challenging or impossible to access. Thus, a C–H activation of ubiquitous carboxylic acids followed by their decarboxylative functionalization provides modular access to difunctionalized carbon frameworks with distinctly controlled stereochemistry. Application of this strategy to simplify the synthesis of medicinally important entities and to discover potent antimalarial compounds is described., The union of two powerful transformations, directed C–H activation and decarboxylative cross-coupling, for the enantioselective synthesis of vicinally functionalized alkyl, carbocyclic, and heterocyclic compounds is described. Starting from simple carboxylic acid building blocks, this modular sequence exploits the residual directing group to access more than 50 scaffolds that would be otherwise extremely difficult to prepare. The tactical use of these two transformations accomplishes a formal vicinal difunctionalization of carbon centers in a way that is modular and thus, amenable to rapid diversity incorporation. A simplification of routes to known preclinical drug candidates is presented along with the rapid diversification of an antimalarial compound series.

Published

2019

8. A hepatocyte differentiation model reveals two subtypes of liver cancer with different oncofetal properties and therapeutic targets.

Author

Ming Liu, Qian Yan, Yi Sun, Yoonhee Nam, Liang Hu, Jane HC Loong, Qi Ouyang, Yu Zhang, Hao-Long Li, Fan-En Kong, Lei Li, Yan Li, Mei-Mei Li, Wei Cheng, Ling-Xi Jiang, Shuo Fang, Xiao-Dong Yang, Jia-Qiang Mo, Yuan-Feng Gong, and Yun-Qiang Tang

Subjects

LIVER cancer, HUMAN embryonic stem cells, HIERARCHICAL clustering (Cluster analysis), LIVER cells, EMBRYOLOGY

Abstract

Clinical observation of the association between cancer aggressiveness and embryonic development stage implies the importance of developmental signals in cancer initiation and therapeutic resistance. However, the dynamic gene expression during organogenesis and the master oncofetal drivers are still unclear, which impeded the efficient elimination of poor prognostic tumors, including human hepatocellular carcinoma (HCC). In this study, human embryonic stem cells were induced to differentiate into adult hepatocytes along hepatic lineages to mimic liver development in vitro. Combining transcriptomic data from liver cancer patients with the hepatocyte differentiation model, the active genes derived from different hepatic developmental stages and the tumor tissues were selected. Bioinformatic analysis followed by experimental assays was used to validate the tumor subtypespecific oncofetal signatures and potential therapeutic values. Hierarchical clustering analysis revealed the existence of two subtypes of liver cancer with different oncofetal properties. The gene signatures and their clinical significance were further validated in an independent clinical cohort and The Cancer Genome Atlas database. Upstream activator analysis and functional screening further identified E2F1 and SMAD3 as master transcriptional regulators. Small-molecule inhibitors specifically targeting the oncofetal drivers extensively down-regulated subtype-specific developmental signaling and inhibited tumorigenicity. Liver cancer cells and primary HCC tumors with different oncofetal properties also showed selective vulnerability to their specific inhibitors. Further precise targeting of the tumor initiating steps and driving events according to subtype-specific biomarkers might eliminate tumor progression and provide novel therapeutic strategy. [ABSTRACT FROM AUTHOR]

Published

2020

9. Modular, stereocontrolled Cβ-H/Cα-C activation of alkyl carboxylic acids.

Author

Ming Shang, Feu, Karla S., Vantourout, Julien C., Barton, Lisa M., Osswald, Heather L., Nobutaka Kato, Gagaring, Kerstin, McNamara, Case W., Gang Chen, Liang Hu, Shengyang Ni, Fernández-Canelas, Paula, Miao Chen, Merchant, Rohan R., Tian Qin, Schreiber, Stuart L., Melillo, Bruno, Jin-Quan Yu, and Baran, Phil S.

Subjects

CARBOCYCLIC acids, HETEROCYCLIC compounds, ALKYL compounds, CARBOXYLIC acids, DECARBOXYLATION, DRUG development, ANTIMALARIALS

Abstract

The union of two powerful transformations, directed C-H activation and decarboxylative cross-coupling, for the enantioselective synthesis of vicinally functionalized alkyl, carbocyclic, and heterocyclic compounds is described. Starting from simple carboxylic acid building blocks, this modular sequence exploits the residual directing group to access more than 50 scaffolds that would be otherwise extremely difficult to prepare. The tactical use of these two transformations accomplishes a formal vicinal difunctionalization of carbon centers in a way that is modular and thus, amenable to rapid diversity incorporation. A simplification of routes to known preclinical drug candidates is presented along with the rapid diversification of an antimalarial compound series. [ABSTRACT FROM AUTHOR]

Published

2019

10. The molecular evolution of feathers with direct evidence from fossils.

Author

Yanhong Pan, Wenxia Zheng, Sawyer, Roger H., Pennington, Michael W., Xiaoting Zheng, Xiaoli Wang, Min Wang, Liang Hu, O'Connor, Jingmai, Tao Zhao, Zhiheng Li, Schroeter, Elena R., Feixiang Wu, Xing Xu, Zhonghe Zhou, and Schweitzer, Mary H.

Subjects

MOLECULAR evolution, DINOSAURS, AMINO acids in the body, FEATHERS, KERATIN

Abstract

Dinosaur fossils possessing integumentary appendages of various morphologies, interpreted as feathers, have greatly enhanced our understanding of the evolutionary link between birds and dinosaurs, as well as the origins of feathers and avian flight. In extant birds, the unique expression and amino acid composition of proteins in mature feathers have been shown to determine their biomechanical properties, such as hardness, resilience, and plasticity. Here, we provide molecular and ultrastructural evidence that the pennaceous feathers of the Jurassic nonavian dinosaur Anchiornis were composed of both feather β-keratins and α-keratins. This is significant, because mature feathers in extant birds are dominated by β-keratins, particularly in the barbs and barbules forming the vane. We confirm here that feathers were modified at both molecular and morphological levels to obtain the biomechanical properties for flight during the dinosaur-bird transition, and we show that the patterns and timing of adaptive change at the molecular level can be directly addressed in exceptionally preserved fossils in deep time. [ABSTRACT FROM AUTHOR]

Published

2019

11. Phylogeny, evolution, and biogeography of Asiatic Salamanders (Hynobiidae)

Author

Hui Zhou, Peng Zhang, Theodore J. Papenfuss, David B. Wake, Yifei Liu, Xiu-Ling Wang, Liang-Hu Qu, and Yue-Qin Chen

Subjects

Multidisciplinary, Pachyhynobius, Asia, Phylogenetic tree, Geography, Ecology, Lineage (evolution), Biogeography, Molecular Sequence Data, Urodela, Biology, Biological Sciences, biology.organism_classification, Batrachuperus, Monophyly, Paradactylodon, Phylogenetics, Evolutionary biology, Animals, Phylogeny

Abstract

We sequenced 15 complete mitochondrial genomes and performed comprehensive molecular phylogenetic analyses to study the origin and phylogeny of the Hynobiidae, an ancient lineage of living salamanders. Our phylogenetic analyses show that the Hynobiidae is a clade with well resolved relationships, and our results contrast with a morphology-based phylogenetic hypothesis. These salamanders have low vagility and are limited in their distribution primarily by deserts, mountains, and oceans. Our analysis suggests that the relationships among living hynobiids have been shaped primarily by geography. We show that four-toed species assigned to Batrachuperus do not form a monophyletic group, and those that occur in Afghanistan and Iran are transferred to the resurrected Paradactylodon . Convergent morphological characters in different hynobiid lineages are likely produced by similar environmental selective pressures. Clock-independent molecular dating suggests that hynobiids originated in the Middle Cretaceous [≈110 million years ago (Mya)]. We propose an “out of North China” hypothesis for hynobiid origins and hypothesize an ancestral stream-adapted form. Given the particular distributional patterns and our molecular dating estimates, we hypothesize that: ( i ) the interior desertification from Mongolia to Western Asia began ≈50 Mya; ( ii ) the Tibetan plateau (at least on the eastern fringe) experienced rapid uplift ≈40 Mya and reached an altitude of at least 2,500 m; and ( iii ) the Ailao–Red River shear zone underwent the most intense orogenic movement ≈24 Mya.

Published

2006

12. Cancer in the parasitic protozoans Trypanosoma brucei and Toxoplasma gondii.

Author

Zhao-Rong Lun, De-Hua Lai, Yan-Zi Wen, Ling-Ling Zheng, Ji-Long Shen, Ting-Bo Yang, Wen-Liang Zhou, Liang-Hu Qu, Hide, Geoff, and Ayala, Francisco J.

Subjects

CANCER research, TRYPANOSOMA brucei, TOXOPLASMA gondii, CANCER cells, VERTEBRATES

Abstract

Cancer is a general name for more than 100 malignant diseases. It is postulated that all cancers start from a single abnormal cell that grows out of control. Untreated cancers can cause serious conse- quences and deaths. Great progress has been made in cancer research that has significantly improved our knowledge and understanding of the nature and mechanisms of the disease, but the origins of cancer are far from being well understood due to the limitations of suitable model systems and to the complexities of the disease. In view of the fact that cancers are found in various species of vertebrates and other metazoa, here, we suggest that cancer also occurs in parasitic protoz- oans such as Trypanosoma brucei, a blood parasite, and Toxoplasma gondii, an obligate intracellular pathogen. Without treatment, these protozoan cancers may cause severe disease and death in mammals, including humans. The simpler genomes of these single-cell organ- isms, in combination with their complex life cycles and fascinating life cycle differentiation processes, may help us to better understand the origins of cancers and, in particular, leukemias. [ABSTRACT FROM AUTHOR]

Published

2015

13. Both endo-siRNAs and tRNA-derived small RNAs are involved in the differentiation of primitive eukaryote Giardia lamblia.

Author

Jian-You Liao, Yan-Hua Guo, Ling-Ling Zheng, Yan Li, Wen-Li Xu, Yu-Chan Zhang, Hui Zhou, Zhao-Rong Lun, Ayala, Francisco J., and Liang-Hu Qu

Subjects

EUKARYOTES, GIARDIA lamblia, TRANSFER RNA, SMALL interfering RNA, GENETIC regulation

Abstract

Small RNAs (sRNAs), including microRNAs and endogenous siRNAs (endo-siRNAs), regulate most important biologic processes in eukaryotes, such as cell division and differentiation. Although sRNAs have been extensively studied in various eukaryotes, the role of sRNAs in the early emergence of eukaryotes is unclear. To address these questions, we deep sequenced the sRNA transcriptome of four different stages in the differentiation of Giardia lamblia, one of the most primitive eukaryotes. We identified a large number of endo-siRNAs in this fascinating parasitic protozoan and found that they were produced from live telomeric retrotransposons and three genomic regions (i.e., endo-siRNA generating regions [eSGRs]). eSGR-derived endo-siRNAs were proven to target mRNAs in trans. Gradual up-regulation of endo-siRNAs in the differentiation of Giardia suggested that they might be involved in the regulation of this process. This hypothesis was supported by the impairment of the differentiation ability of Giardia when GLDICER, essential for the biogenesis of endo-siRNAs, was knocked down. Endo-siRNAs are not the only sRNA regulators in Giardia differentiation, because a great number of tRNAs-derived sRNAs showed more dramatic expression changes than endo-siRNAs in this process. We totally identified five novel kinds of tRNAs-derived sRNAs and found that the biogenesis in four of them might be correlated with that of stress-induced tRNA-derived RNA (sitRNA), which was discovered in our previous studies. Our studies reveal an unexpected complex panorama of sRNA in G. lamblia and shed light on the origin and functional evolution of eukaryotic sRNAs. [ABSTRACT FROM AUTHOR]

Published

2014

14. Pseudogene-derived small interference RNAs regulate gene expression in African Trypanosoma brucei.

Author

Yan-Zi Wen, Ling-Ling Zheng, Jian-You Liao, Ming-Hui Wang, Ying Wei, Xue-Min Guo, Liang-Hu Qu, Ayala, Francisco J., and Zhao-Rong Lun

Subjects

RNA synthesis, GENETIC regulation, GENE expression, TRYPANOSOMA brucei, ANIMAL genetics, EUKARYOTIC cells

Abstract

Pseudogenes have been shown to acquire unique regulatory roles from more and more organisms. We report the observation of a cluster of siRNAs derived from pseudogenes of African Trypanosoma brucei using high through-put analysis. We show that these pseudogene-derived siRNAs suppress gene expression through RNA interference. The discovery that siRNAs may originate from pseudogenes and regulate gene expression in a unicellular eukaryote provides insights into the functional roles of pseudogenes and into the origin of noncoding small RNAs. [ABSTRACT FROM AUTHOR]

Published

2011

15. Phylogeny, evolution, and biogeography of Asiatic Salamanders (Hynobiidae).

Author

Peng Zhang, Yue-Qin Chen, Hui Zhou, Yi-Fei Liu, Xiu-Ling Wang, Papenfuss, Theodore J., Wake, David B., and Liang-Hu Qu

Subjects

SALAMANDERS, PHYLOGENY, MITOCHONDRIAL DNA, GENOMICS, MORPHOLOGY, HYNOBIIDAE

Abstract

We sequenced 15 complete mitochondrial genomes and performed comprehensive molecular phylogenetic analyses to study the origin and phylogeny of the Hynobiidae, an ancient lineage of living salamanders. Our phylogenetic analyses show that the Hynobiidae is a clade with well resolved relationships, and our results contrast with a morphology-based phylogenetic hypothesis. These salamanders have low vagility and are limited in their distribution primarily by deserts, mountains, and oceans. Our analysis suggests that the relationships among living hynobiids have been shaped primarily by geography. We show that four-toed species assigned to Batrachuperus do not form a monophyletic group, and those that occur in Afghanistan and Iran are transferred to the resurrected Paradactylodon. Convergent morphological characters in different hynobiid lineages are likely produced by similar environmental selective pressures. Clock-independent molecular dating suggests that hynobiids originated in the Middle Cretaceous [≈110 million years ago (Mya)]. We propose an ‘out of North China’ hypothesis for hynobiid origins and hypothesize an ancestral stream-adapted form. Given the particular distributional patterns and our molecular dating estimates, we hypothesize that: (i) the interior desertification from Mongolia to Western Asia began ≈50 Mya; (ii) the Tibetan plateau (at least on the eastern fringe) experienced rapid uplift ≈40 Mya and reached an altitude of at least 2,500 m; and (iii) the Ailao-Red River shear zone underwent the most intense orogenic movement ≈24 Mya. [ABSTRACT FROM AUTHOR]

Published

2006

16. Nonequilibrium landscape theory of neural networks.

Author

Han Yan, Lei Zhao, Liang Hu, Xidi Wang, Erkang Wang, and Jin Wang

Subjects

BIOLOGICAL neural networks, NON-equilibrium reactions

Abstract

An abstract of the article "Nonequilibrium landscape theory of neural networks," by Han Yan and colleagues, is presented.

Published

2013