Contact Fatigue of Spur Gear Operating Under Starved Lubrication Condition

Udthala, Aparna

04 May 2021

No description available.

Mechanical Engineering

contact fatigue

spur gear contact

starved lubrication

flooded lubrication

Mechanisms of Post-transcriptional Regulation of Cat-1 Gene Expression by Amino Acid Starvation

Yaman, Ibrahim

05 July 2005

No description available.

Health Sciences, Nutrition

AU-rich element

mRNA stability

translational control

IRES

amino acid starvation

ITAF

Magnetic Resonance Imaging of Hepatic Fat Content Measurements at 7 Tesla

Narayan, Sreenath Prativadi

27 August 2012

No description available.

Biomedical Engineering

Engineering

MRI

hepatic fat

hepatic steatosis

imaging

obesity

starvation

refeeding

FLAWLESS

REFINED

CLOCKS

STUDY OF STARVATION ISSUES IN THE IEEE 802.11e MAC LAYER PROTOCOL

LENAGALA, ROSHAN M.S.

02 October 2006

No description available.

Computer Science

starvation prevention

IEEE 802.11e EDCF

IEEE 802.11 DCF

Ad hoc networks

Context-dependent threats to the fidelity of translation of the genetic code.

Moghal, Adil Baig

03 November 2016

No description available.

Biochemistry

Molecular Biology

Microbiology

mistranslation

aminoacyl tRNA

oxidative stress

nutrient starvation

translational fidelity

The Role of NfuA Protein in Acinetobacter baumannii Iron Metabolism

Park, Thomas

04 May 2011

No description available.

Microbiology

Acinetobacter baumannii

NfuA

oxidative stress

iron starvation

iron-sulfur cluster biosynthesis

Survival Strategies of Streptococcus mutans during Carbohydrate Starvation

Busuioc, Monica

January 2010

Streptococcus mutans is a facultative member of the oral plaque and is associated with dental caries. It is able to survive long periods of sugar starvation. The purpose of this project was to explore specific avenues that S. mutans may use in order to cope with carbohydrate deprivation. Intracellular polysaccharide (IPS) is accumulated by S. mutans when grown in excess sugar, and can contribute towards the cariogenicity of S. mutans. Inactivation of the glgA gene, encoding a putative glycogen synthase, prevented accumulation of IPS in batch cultures grown with excess glucose or sucrose. Inactivation of the pul gene, encoding a putative pullulanase which is thought to be involved in IPS catabolism, did not prevent IPS accumulation. IPS was found to be important for the persistence of S. mutans grown in batch culture with excess glucose, and then starved of glucose. In these conditions, the IPS was largely used up within one day of starvation, and yet survival of the parental strain was extended by at least 15 days beyond that of the glgA and pul mutants; potentially, some feature of IPS metabolism, distinct from providing nutrients, is important for persistence. IPS was not needed for persistence when sucrose was carbon source or when mucin was present in batch cultures. IPS accumulation was not clearly demonstrated in biofilm conditions. When grown in condition permissive for IPS accumulation, biofilms of the glgA and pul mutants did not show decreased survival, compared to the parental strain. It is plausible that, within a biofilm, S. mutans can use alternative sources of energy (like the extracellular matrix) to compensate for the lack of IPS. To look at specific genes upregulated by sugar starvation, microarrays analysis was performed on S. mutans batch cultures. Some of the genes upregulated by starved, stationary phase bacteria, appeared to be organized in an operon, thought to encode components of the pyruvate dehydrogenase (PDH) complex. Northern Blot analysis showed that pdhD and the downstream genes, pdhA, pdhB and pdhC, form an operon that is transcribed predominantly in stationary phase. Inactivation of pdhD impaired survival of both batch cultures and biofilms. Analysis with fluorescent reporters revealed a distinct expression pattern for the pdh promoter, with less than 1% of stationary phase bacteria displaying pdh expression. When first detected, after one day of sugar starvation, expression was in individual bacteria. At later times, expressing bacteria were often in chains. The lengths of chains increased with time suggesting growth and division. It is likely that the pdh-expressing sub-population is able to persist for extend times in stationary phase. / Microbiology and Immunology

Biology, Microbiology

Biology, Molecular

Biology, Genetics

Gene Regulation

Ips

Pdh

Starvation

Streptococcus Mutans

Survival

Elucidating the function of inositol pyrophosphate signaling pathways in Arabidopsis thaliana

Cridland, Caitlin A.

12 April 2022

Phosphate (Pi) is an essential nutrient for plants, required for plant growth and seed viability. When Pi is limited, plants undergo dynamic morphological and metabolic changes to leverage available Pi, known as the Phosphate Starvation Response (PSR). The inositol phosphate (InsP) signaling pathway is a crucial element of the plant's ability to regulate the PSR and respond to changing energy conditions. InsPs are synthesized from the cyclic 6-carbon polyol scaffold, myo-inositol. Inositol hexakisphosphate (InsP6) is the most abundant InsP signaling molecule and can be phosphorylated by the multifunctional inositol tetrakisphosphate 1-kinase 1 (ITPK1) and diphosphoinositol pentakisphosphate (VIP) kinases, resulting in inositol pyrophosphates (PP-InsPs). PP-InsPs have high energy bonds and have been linked to Pi maintenance and energy homeostasis in yeast, plants, and mammals. However, the precise mechanism(s) by which PP-InsPs act within plant signaling pathways remains to be determined. Two approaches to understand the role of PP-InsPs in plants are described within this dissertation. The first approach analyzes genetic loss-of-function vip1/vip2 double mutants, and their responses to low Pi conditions. Specifically, vip1/vip2 double mutant gene expression and lipid remodeling patterns in response to low Pi were characterized. We found that vip1-2/vip2-2 had an impacted lipid remodeling response under low Pi conditions, whereas ipk1 had altered lipid composition under Pi-replete conditions. In a complementary approach, a gain-of-function in either the ITPK1 or the kinase domain of VIP (VIP2KD) were constructed in transgenic Arabidopsis thaliana plants. Both ITPK1 and VIP2KD transgenic plants contain elevated levels of the specific inositol pyrophosphate, InsP8. Elevated InsP8 in both types of plants results in changes in growth and senescence phenotypes, delayed time to flowering, Pi accumulation, and altered PSR gene expression. The data from both approaches suggest new roles for PP-InsPs in the regulation of the PSR and other signaling pathways in plants. To enhance my teaching and leadership skills, I participated in the Graduate Teaching Scholars (GTS) program. As a GTS, I worked with the Virginia Tech Research and Extension Experiential Learning (VT-REEL) program where I developed a structured mentorship program for undergraduate and graduate students and created a professional development workshop series. During the COVID-19 pandemic, I developed an online version of the VT-REEL program. Using inclusive pedagogy practices and surveys from the participants, we compiled the best practices for moving a summer undergraduate research program online. These practices come from surveyed participants in the 2020 and provides strategies that can be tailored to various online research experiences and be implemented in both online and in-person formats. / Doctor of Philosophy / Phosphate (Pi) is crucial for plant development and crop yield, but is often limited in soils. Pi-containing fertilizers are often added to supplement soils. Overuse of Pi-containing fertilizers can lead to Pi runoff and can devastate aquatic ecosystems. In addition, Pi is a limited, nonrenewable resource, with U.S. stores projected to be depleted in as little as 30 years. It is now crucial to develop crops that can feed a growing population with less Pi input. Here, we describe how changing levels of plant messenger molecules known as inositol pyrophosphates (PP-InsPs) impact the ability of plants to sense and respond to Pi. This knowledge advances understanding f how mineral nutrient physiology affects many plants traits, and can be harnessed to develop novel strategies to reduce Pi-application and overuse.

Inositol Phosphate

Inositol Pyrophosphate

Inositol

Phosphorous

Phosphate

Phosphate Sensing

VIP

ITPK1

Phosphate Starvation Response

The Great Irish Famine: identifying starvation in the tissues of victims using stable isotope analysis of bone and incremental dentine collagen

Beaumont, Julia, Montgomery, Janet

13 July 2016

Yes / The major components of human diet both past and present may be estimated by measuring the carbon and nitrogen isotope ratios (δ13C and δ15N) of the collagenous proteins in bone and tooth dentine. However, the results from these two tissues differ substantially: bone collagen records a multi-year average whilst primary dentine records and retains timebound isotope ratios deriving from the period of tooth development. Recent studies harnessing a sub-annual temporal sampling resolution have shed new light on the individual dietary histories of our ancestors by identifying unexpected radical short-term dietary changes, the duration of breastfeeding and migration where dietary change occurs, and by raising questions regarding factors other than diet that may impact on δ13C and δ15N values. Here we show that the dentine δ13C and δ15N profiles of workhouse inmates dating from the Great Irish Famine of the 19th century not only record the expected dietary change from C3 potatoes to C4 maize, but when used together they also document prolonged nutritional and other physiological stress resulting from insufficient sustenance. In the adults, the influence of the maize-based diet is seen in the δ13C difference between dentine (formed in childhood) and rib (representing an average from the last few years of life). The demonstrated effects of stress on the δ13C and δ15N values will have an impact on the interpretations of diet in past populations even in slow-turnover tissues such as compact bone. This technique also has applicability in the investigation of modern children subject to nutritional distress where hair and nails are unavailable or do not record an adequate period of time. / This study was supported by an Arts and Humanities Research Council grant funding to JB under AHRC Studentship AH/I503307/1.

Great Irish famine

Starvation victims

Stable isotope analysis

Bone

Incremental dentine collagen

Dissecting the effect of EGF starvation on the signaling and transcriptomic landscapes of the mouse intestinal epithelium

Hassanin, Ismail El-Shimy

17 January 2023

Die EGFR-Signalübertragung steuert viele verschiedene zelluläre Prozesse in allen Arten von Epithelzellen, einschließlich des Darmepithels. Diese Prozesse reichen von Proliferation und Wachstum über Differenzierung bis hin zu Autophagie und Apoptose. Die vorliegende Studie zielt darauf ab, die Signalveränderungen zu charakterisieren, die im Darmepithel als Reaktion auf EGF-induzierten Hungerstress stattfinden. Kontraintuitiv führte eine 24-stündige EGF-Starre zu einer deutlichen Phosphorylierung von EGFR, MEK1/2 und ERK1/2, was auf eine Aktivierung dieser Signalachse in Darmzellen hindeutet. Diese Veränderungen waren am signifikantesten in den undifferenzierten CD44-reichen Krypta-Basiszellen. Interessanterweise war die EGF-Starvation-induzierte ERK1/2-Phosphorylierung mit der Hochregulierung einer Untergruppe von ERK-Zielgenen verbunden, bei denen es sich zumeist um primäre Zielgene handelt. Die Überexpression des EGFR-Liganden HBEGF und des FGFR-Liganden FGF1 in ausgehungerten Zellen könnte für die hungerbedingte Zunahme der MAPK-Aktivität verantwortlich sein, obwohl eine erhöhte Sekretion dieser Liganden durch ausgehungerte Organoide nicht bestätigt werden konnte. Dennoch wird die kompensatorische Ligandensekretion durch die Beobachtung gestützt, dass die erneute Zugabe von EGF zu ausgehungerten Organoiden die pERK1/2-Spiegel auf den Ausgangswert zurücksetzt, was bedeutet, dass EGF mit einem anderen von ausgehungerten Zellen sezernierten Liganden um den EGFR konkurriert. Zusätzlich zu HBEGF wurde festgestellt, dass andere Gene, die für den Schutz, das Überleben und die Regeneration des Darmepithels bekannt sind, in ausgehungerten Organoiden überexprimiert werden, wie z. B. Reg3b. Insgesamt können die in dieser Studie berichteten EGF-induzierten Veränderungen der MAPK-Signalübertragung und der globalen Genexpression als ein überlebensförderndes Programm interpretiert werden, das bevorzugt in Darmstammzellen und frühen Vorläuferzellen aktiviert wird. / EGFR signaling drives many different cellular processes in all kinds of epithelial cells including the intestinal epithelium. Such processes range from proliferation and growth to differentiation to autophagy and apoptosis. The present study aims to characterize signaling changes that take place in the intestinal epithelium in response to EGF starvation-induced stress using epithelial organoids derived from the mouse duodenum and human colorectal tumor tissue. Counterintuitively, 24 h EGF starvation induced a prominent phosphorylation of EGFR, MEK1/2 and ERK1/2 indicating an activation of this signaling axis in intestinal cells. These changes were most significant in the undifferentiated CD44-high crypt base cells. Interestingly, EGF starvation-induced ERK1/2 phosphorylation was associated with upregulation of a subset of ERK target genes that were mostly primary-response targets. Overexpression of the EGFR ligand HBEGF and the FGFR ligand FGF1 in starved cells may account for starvation-driven increase in MAPK activity, although an increased secretion of these ligands by starved organoids was not confirmed. Nevertheless, compensatory ligand secretion is still supported by the observation that EGF re-addition to starved organoids restores pERK1/2 levels to baseline which implies that EGF competes for EGFR with some other ligand secreted by starved cells. In addition to HBEGF, other genes known to promote protection, survival and regeneration of the intestinal epithelium were found to be overexpressed in starved organoids such as Reg3b. Collectively, EGF starvation-induced changes in MAPK signaling and global gene expression reported in this study can be interpreted as a pro-survival program that gets activated preferentially in intestinal stem cells and early progenitors.

Wachstumsfaktor-Starvation

EGFR-Signalweg

Einzelzell-Transkriptomik

Darm-Organoide

Growth factor starvation

EGFR signaling

Single-cell transcriptomics

Intestinal epithelial organoids

570 Biologie

WX 1600

WE 2200

WE 5320

ddc:570