Developmental evolution

Phylogenomic analyses have helped resolve many recalcitrant relationships in the angiosperm tree of life, yet phylogenetic resolution of the backbone of the Leguminosae, one of the largest and most economically and ecologically important families, remains poor due to generally limited molecular data and incomplete taxon sampling of previous studies. Here, we resolve many of the Leguminosae’s thorniest nodes through comprehensive analysis of plastome-scale data using multiple modified coding and noncoding data sets of 187 species representing almost all major clades of the family. Additionally, we thoroughly characterize conflicting phylogenomic signal across the plastome in light of the family’s complex history of plastome evolution. Most analyses produced largely congruent topologies with strong statistical support and provided strong support for resolution of some long-controversial deep relationships among the early diverging lineages of the subfamilies Caesalpinioideae and Papilionoideae. The robust phylogenetic backbone reconstructed in this study establishes a framework for future studies on legume classification, evolution, and diversification. However, conflicting phylogenetic signal was detected and quantified at several key nodes that prevent the confident resolution of these nodes using plastome data alone. [Leguminosae; maximum likelihood; phylogenetic conflict; plastome; recalcitrant relationships; stochasticity; systematic error.]

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The Headgroup Evolution of Cationic Lipids for Gene Delivery

Zhi

et al. 2013

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Cationic lipids are one of the most widely used nonviral vectors for gene delivery and are especially attractive because they can be easily synthesized and extensively characterized. Additionally, they can best facilitate the elucidation of structure-activity relationships by modifying each of their constituent domains. The polar hydrophilic headgroups enable the condensation of nucleic acids by electrostatic interactions with the negatively charged phosphate groups of the genes, and further govern transfection efficiency. The headgroups of cationic lipids play a crucial role for gene delivery; they can be quaternary ammoniums, amines, aminoacids or peptides, guanidiniums, heterocyclic headgroups, and some unusual headgroups. This review summarizes recent research results concerning the nature (such as the structure and shape of cationic headgroup) and density (such as the number and the spacing of cationic headgroup) of head functional groups for improving the design of efficient cationic lipids to overcome the critical barriers of in vitro and in vivo transfection.

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Plastid Genome Evolution in the Early-Diverging Legume Subfamily Cercidoideae (Fabaceae)

et al. 2018

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The subfamily Cercidoideae is an early-branching legume lineage, which consists of 13 genera distributed in the tropical and warm temperate Northern Hemisphere. A previous study detected two plastid genomic variations in this subfamily, but the limited taxon sampling left the overall plastid genome (plastome) diversification across the subfamily unaddressed, and phylogenetic relationships within this clade remained unresolved. Here, we assembled eight plastomes from seven Cercidoideae genera and conducted phylogenomic-comparative analyses in a broad evolutionary framework across legumes. The plastomes of Cercidoideae all exhibited a typical quadripartite structure with a conserved gene content typical of most angiosperm plastomes. Plastome size ranged from 151,705 to 165,416 bp, mainly due to the expansion and contraction of inverted repeat (IR) regions. The order of genes varied due to the occurrence of several inversions. In Tylosema species, a plastome with a 29-bp IR-mediated inversion was found to coexist with a canonical-type plastome, and the abundance of the two arrangements of isomeric molecules differed between individuals. Complete plastome data were much more efficient at resolving intergeneric relationships of Cercidoideae than the previously used selection of only a few plastid or nuclear loci. In sum, our study revealed novel insights into the structural diversification of plastomes in an early-branching legume lineage, and, thus, into the evolutionary trajectories of legume plastomes in general.

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Plastomes of Mimosoideae: structural and size variation, sequence divergence, and phylogenetic implication

Wang

Chen

et al. 2017

Tree Genetics & Genomes

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miR-381 suppresses C/EBPα-dependent Cx43 expression in breast cancer cells

Jia

Zhou

et al. 2015

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Role of angiotensin-converting enzyme (ACE and ACE2) imbalance on tourniquet-induced remote kidney injury in a mouse hindlimb ischemia–reperfusion model

Yang¹,

Wang²,

Wang³

et al. 2012

Peptides

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Synthesis and biological activity of carbamate-linked cationic lipids for gene delivery in vitro

Zhi

Zhang

Qureshi³

et al. 2012

Bioorganic & Medicinal Chemistry Letters

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Inhibition of signal transducer and activator of transcription 3 expression by RNA interference suppresses invasion through inducing anoikis in human colon cancer cells

Fan

Zhang²,

Wu³

et al. 2008

WJG

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Yinhuan Wang

Exploration of Plastid Phylogenomic Conflict Yields New Insights into the Deep Relationships of Leguminosae

The Headgroup Evolution of Cationic Lipids for Gene Delivery

Plastid Genome Evolution in the Early-Diverging Legume Subfamily Cercidoideae (Fabaceae)

Plastomes of Mimosoideae: structural and size variation, sequence divergence, and phylogenetic implication

miR-381 suppresses C/EBPα-dependent Cx43 expression in breast cancer cells

Role of angiotensin-converting enzyme (ACE and ACE2) imbalance on tourniquet-induced remote kidney injury in a mouse hindlimb ischemia–reperfusion model

Synthesis and biological activity of carbamate-linked cationic lipids for gene delivery in vitro

Inhibition of signal transducer and activator of transcription 3 expression by RNA interference suppresses invasion through inducing anoikis in human colon cancer cells

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