The transcriptional response of IECs to <i>C</i>. <i>albicans</i> infection is largely damage- and filamentation-independent. by Jakob L. Sprague (18087148)

Polylactic Acid/Polybutylene Adipate Terephthalate-Carbon Nanotube Nanobiocomposites with a Segregated Toughening Morphology Yielding Large Ductility for Biocompatible Materials by Utsab Ayan (18552401)

Association between the Ct value and Ag-RDT results. by Mariana Lourenço Freire (6996530)

Terminal objective values for the Gilets Jaunes dataset as a function of <i>s</i>_{<i>network</i>} and <i>s</i>_<i>edge</i>. by Yen-Shao Chen (18264587)

Subjects:

Terminal objective values for the U.S. election dataset as a function of <i>s</i>_{<i>network</i>} and <i>s</i>_<i>edge</i>. by Yen-Shao Chen (18264587)

Subjects:

<i>Pax7</i> positive cells decrease during <i>in vitro</i> differentiation of myogenic progenitors. by Cécile Rallière (86527)

Supplementary Material for: Effects of White Matter Hyperintensities on 90-Day Functional Outcome after Large Vessel and Non-Large Vessel Stroke by Griessenauer C.J. (8965901)

“…<b><i>Material and Methods:</i></b> We reviewed acute ischemic stroke patients admitted between 2009 and 2017 at a large healthcare system in the USA. …”

Sectors exporting a large share of their output to customers directly affected by a post-Brexit no-trade-deal event are particularly prone to production losses. by Leonie Wenz (9339107)

Data_Sheet_1_Estimating the Prevalence and Genetic Risk Mechanisms of ARFID in a Large Autism Cohort.PDF by Tanner Koomar (10944345)

“…ARFID is highly comorbid with autism, and we provide the first estimate of its prevalence in a large and phenotypically diverse autism cohort (a subsample of the SPARK study, N = 5,157 probands). …”

Boxplot of Ct values for candidate reference genes in all samples. by Yulia O. Kipryushina (12884003)

Deletion of RecF or RecO decreases the filamentation of <i>ΔrarA ΔruvB</i> cells. by Kanika Jain (2884439)

Large and Tunable Wavelength Blue Shifts in Luminescent Piezochromism of Cu(I) Complexes via a Guest Encapsulation Strategy by Wan-Tao Chen (330486)

“…Materials that display blue-shifted and enhanced luminescence in response to mechanical stimuli are limited, and the related mechanism is difficult to investigate due to the unclear structural information. In this work, a series of Cu­(I) complexes that display blue-shifted and enhanced luminescence under pressure are designed via a guest encapsulation strategy. …”

Large and Tunable Wavelength Blue Shifts in Luminescent Piezochromism of Cu(I) Complexes via a Guest Encapsulation Strategy by Wan-Tao Chen (330486)

“…Materials that display blue-shifted and enhanced luminescence in response to mechanical stimuli are limited, and the related mechanism is difficult to investigate due to the unclear structural information. In this work, a series of Cu­(I) complexes that display blue-shifted and enhanced luminescence under pressure are designed via a guest encapsulation strategy. …”

Large and Tunable Wavelength Blue Shifts in Luminescent Piezochromism of Cu(I) Complexes via a Guest Encapsulation Strategy by Wan-Tao Chen (330486)

“…Materials that display blue-shifted and enhanced luminescence in response to mechanical stimuli are limited, and the related mechanism is difficult to investigate due to the unclear structural information. In this work, a series of Cu­(I) complexes that display blue-shifted and enhanced luminescence under pressure are designed via a guest encapsulation strategy. …”

Large and Tunable Wavelength Blue Shifts in Luminescent Piezochromism of Cu(I) Complexes via a Guest Encapsulation Strategy by Wan-Tao Chen (330486)

“…Materials that display blue-shifted and enhanced luminescence in response to mechanical stimuli are limited, and the related mechanism is difficult to investigate due to the unclear structural information. In this work, a series of Cu­(I) complexes that display blue-shifted and enhanced luminescence under pressure are designed via a guest encapsulation strategy. …”

Large and Tunable Wavelength Blue Shifts in Luminescent Piezochromism of Cu(I) Complexes via a Guest Encapsulation Strategy by Wan-Tao Chen (330486)

“…Materials that display blue-shifted and enhanced luminescence in response to mechanical stimuli are limited, and the related mechanism is difficult to investigate due to the unclear structural information. In this work, a series of Cu­(I) complexes that display blue-shifted and enhanced luminescence under pressure are designed via a guest encapsulation strategy. …”

Large and Tunable Wavelength Blue Shifts in Luminescent Piezochromism of Cu(I) Complexes via a Guest Encapsulation Strategy by Wan-Tao Chen (330486)

“…Materials that display blue-shifted and enhanced luminescence in response to mechanical stimuli are limited, and the related mechanism is difficult to investigate due to the unclear structural information. In this work, a series of Cu­(I) complexes that display blue-shifted and enhanced luminescence under pressure are designed via a guest encapsulation strategy. …”

Decreased CNPase levels in the SG/RC in <i>Large</i>^{<i>myd/myd</i>} <i>mice</i>. by Shigefumi Morioka (8893511)

“…<p>Lysates were obtained from the spiral ganglion (SG)/Rosenthal’s canal (RC) of the P5-7 control and <i>Large</i>^{<i>myd/myd</i>} mice. CNPase immunoblotting showed decreased levels of CNPase in the <i>Large</i>^{<i>myd/myd</i>} mice. …”

Image_1_A large-scale forward genetic screen for maize mutants with altered lignocellulosic properties.tiff by Shaogan Wang (14727736)

“…<p>The development of efficient pipelines for the bioconversion of grass lignocellulosic feedstocks is challenging due to the limited understanding of the molecular mechanisms controlling the synthesis, deposition, and degradation of the varying polymers unique to grass cell walls. Here, we describe a large-scale forward genetic approach resulting in the identification of a collection of chemically mutagenized maize mutants with diverse alterations in their cell wall attributes such as crystalline cellulose content or hemicellulose composition. …”

Table_1_A large-scale forward genetic screen for maize mutants with altered lignocellulosic properties.docx by Shaogan Wang (14727736)

“…<p>The development of efficient pipelines for the bioconversion of grass lignocellulosic feedstocks is challenging due to the limited understanding of the molecular mechanisms controlling the synthesis, deposition, and degradation of the varying polymers unique to grass cell walls. Here, we describe a large-scale forward genetic approach resulting in the identification of a collection of chemically mutagenized maize mutants with diverse alterations in their cell wall attributes such as crystalline cellulose content or hemicellulose composition. …”