BaCKgRoUND aND aIMS: Human transmembrane 6 superfamily 2 (TM6SF2) variant rs58542926 is associated with NAFLD and HCC. However, conflicting reports in germline Tm6sf2 knockout mice suggest no change or decreased very low density lipoprotein (VLDL) secretion and either unchanged or increased hepatic steatosis, with no increased fibrosis. We generated liver-specific Tm6Sf2 knockout mice (Tm6 LKO) to study VLDL secretion and the impact on development and progression of NAFLD. appRoaCH aND ReSUltS: Two independent lines of Tm6 LKO mice exhibited spontaneous hepatic steatosis. Targeted lipidomic analyses showed increased triglyceride species whose distribution and abundance phenocopied findings in mice with liver-specific deletion of microsomal triglyceride transfer protein.The VLDL triglyceride secretion was reduced with small, underlipidated particles and unchanged or increased apolipoprotein B. Liver-specific adeno-associated viral, serotype 8 (AAV8) rescue using either wild-type or mutant E167K-Tm6 reduced hepatic steatosis and improved VLDL secretion. The Tm6 LKO mice fed a high milk-fat diet for 3 weeks exhibited increased steatosis and fibrosis, and those phenotypes were further exacerbated when mice were fed fibrogenic, high fat/fructose diets for 20 weeks. In two models of HCC, either neonatal mice injected with streptozotocin (NASH/STAM) and high-fat fed or with diethylnitrosamine injection plus fibrogenic diet feeding, Tm6 LKO mice exhibited increased steatosis, greater tumor burden, and increased tumor area versus Tm6 flox controls. Additionally, diethylnitrosamine-injected and fibrogenic diet-fed Tm6 LKO mice administered wild-type Tm6 or E167K-mutant Tm6 AAV8 revealed significant tumor attenuation, with tumor burden inversely correlated with Tm6 protein levels.CoNClUSIoNS: Liver-specific Tm6sf2 deletion impairs VLDL secretion, promoting hepatic steatosis, fibrosis, and accelerated development of HCC, which was mitigated with AAV8-mediated rescue.
The soybean gene GmFWL1 (FW2-2-like1) belongs to a plant-specific family that includes the tomato FW2-2 and the maize CNR1 genes, two regulators of plant development. In soybean, GmFWL1 is specifically expressed in root hair cells in response to rhizobia and in nodules. Silencing of GmFWL1 expression significantly reduced nodule numbers supporting its role during soybean nodulation. While the biological role of GmFWL1 has been described, its molecular function and, more generally, the molecular function of plant FW2-2-like proteins is unknown. In this study, we characterized the role of GmFWL1 as a membrane microdomain-associated protein. Specifically, using biochemical, molecular and cellular methods, our data show that GmFWL1 interacts with various proteins associated with membrane microdomains such as remorin, prohibitins and flotillins. Additionally, comparative genomics revealed that GmFWL1 interacts with GmFLOT2/4 (FLOTILLIN2/4), the soybean ortholog to Medicago truncatula FLOTILLIN4, a major regulator of the M. truncatula nodulation process. We also observed that, similarly to MtFLOT4 and GmFLOT2/4, GmFWL1 was localized at the tip of the soybean root hair cells in response to rhizobial inoculation supporting the early function of GmFWL1 in the rhizobium infection process.
The organization of isolated embryo sacs and eggs of Plumbago zeylanica was described before and after fertilization using microscopic cytochemistry and scanning electron microscopy. Major developmental events of fertilization, including preferential fertilization and early embryogenesis, are described in isolated embryo sacs. The two sperms, one unassociated with vegetative nucleus (Sua) and the other physically associated with the vegetative nucleus (Svn), fuse with nuclei of egg and central cell, respectively. The zygote divides asymmetrically to form a two‐celled embryo, consisting of a massive suspensor occupying most of the micropylar portion of the embryo during early embryogenesis. Plastids are distributed in the perinuclear and micropylar regions of the egg cell and in cytoplasmic strands of the central cell before fertilization. Calcofluor white‐positive fibrillar material in the filiform apparatus (presumed β‐1,4 linked glucans) was investigated using scanning electron microscopy. The egg of P. zeylanica can easily be divided into three cytologically distinct regions: 1) perinuclear cytoplasm, 2) lateral cytoplasm, and 3) micropylar cytoplasm. Cytological differences are evident in the organization of the cell walls, general degree of vacuolization, and the distribution of heritable organelles, storage bodies, and microtubules. The present study supports the concept that the egg of P. zeylanica plays combined synergid and gamete functions.
The CaF 2 nano-structures grown by thermal vapor deposition are presented. Significant responsivity improvement (>200%) of mid-infrared PbSe detectors incorporating a 200 nm nano-structured CaF 2 coating was observed. The detector provides a detectivity of 4.2 Â 10 10 cm Á Hz 1/2 /W at 3.8 lm, which outperforms all the reported un-cooled PbSe detectors. Structural investigations show that the coating is constructed by tapered-shape nanostructures, which creates a gradient refractive-index profile. Analogy to moth-eye antireflective mechanism, the gradient refractive-index nanostructures play the major roles for this antireflection effect. Some other possible mechanisms that help enhance the device performance are also discussed in the work.
Abstract. Ovules of Nicotiana tabacum L. were cryofixed with a propane-jet freezer and freeze-substituted in acetone to examine technique-dependent changes in preand post-fertilization embryo sacs using rapidly frozen material. Freezing quality was acceptable in 10% of the embryo sacs in the partially dissected ovules, with icecrystal damage frequently evident in vacuoles and nuclei. One of the two synergids begins to degenerate before pollen-tube arrival in cryofixed material, with breakdown of the plasma membrane and large chalazal vacuole delayed until the penetration of the pollen tube. Early synergid degeneration involved characteristic increases in cytoplasmic electron density and the generation of cytoplasmic bodies to the intercellular space through "pinching-off'. Upon pollen-tube arrival, the male gametes are released through a terminal aperture into the degenerate synergid. Sperm cells undergo morphological alteration before gametic fusion: their mitochondrial electron density increases, the endoplasmic reticulum dilates, cytoplasm becomes finely vacuolated and the surrounding pollen plasma membrane is lost, causing the sperm cells and vegetative nucleus to dissociate. Discharge of the pollen tube results in the formation of numerous enucleated cytoplasmic bodies which are either stripped or shed from sperm cells and pollen-tube cytoplasm. Two so-called X-bodies are found in the degenerate synergid after pollen-tube penetration: the presumed vegetative nucleus occurs at the chalazal end and the presumed synergid nucleus near the micropylar end.
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