Bridging the Learning Gap: Instructing Educators on How to Assist Diverse Learners in Their Classrooms

Teachers are tasked with the responsibility of providing accommodations and modifications for all of their students. They are required to do this even without the necessary resources or training. Over the last five years, Edison Elementary School has experienced a change in student population with an increase in English Language Learners and other students from diverse backgrounds. Unfortunately, the school has not provided teachers with the necessary training and support needed to meet the needs of their new student population. In response to this problem, a course was created to teach the teachers instructional strategies to assist all types of diverse learners. Universal Design for Learning (UDL) was chosen as the primary framework of the course as it encourages accommodations for a variety of different learning preferences. Mayer’s (2017) 12 Principles of Multimedia Learning and the Gradual Release of Responsibility framework (Webb et al., 2019) also guided the design of the course. The course was evaluated through a usability study with four teachers (n=4), and a learning assessment with nineteen teachers (n=19) and one principal (n=1) from Edison Elementary School. Recommendations for future research include providing additional practice using each of the course’s UDL strategies

Zebrafish circadian clock entrainment and the importance of broad spectral light sensitivity

One of the key defining features of an endogenous circadian clock is that it can be entrained or set to local time. Though a number of cues can perform this role, light is the predominant environmental signal that acts to entrain circadian pacemakers in most species. For the past 20 years, a great deal of work has been performed on the light input pathway in mammals and the role of intrinsically photosensitive retinal ganglion cells (ipRGCs)/melanopsin in detecting and sending light information to the suprachiasmatic nucleus (SCN). In teleost fishes, reptiles and birds, the biology of light sensitivity is more complicated as cells and tissues can be directly light responsive. Non-visual light signalling was described many years ago in the context of seasonal, photoperiodic responses in birds and lizards. In the case of teleosts, in particular the zebrafish model system, not only do peripheral tissues have a circadian pacemaker, but possess clear, direct light sensitivity. A surprisingly wide number of opsin photopigments have been described within these tissues, which may underpin this fundamental ability to respond to light, though no specific functional link for any given opsin yet exists. In this study, we show that zebrafish cells show wide spectral sensitivities, as well as express a number of opsin photopigments - several of which are under direct clock control. Furthermore, we also show that light outside the visual range, both ultraviolet and infrared light, can induce clock genes in zebrafish cells. These same wavelengths can phase shift the clock, except infrared light, which generates no shift even though genes such asper2andcry1aare induced

Analysis of the Interconnection between Industry 4.0 and Logistics 4.0

Since the mid-1990’s when the Internet emerged and the Web came along, it started a massive transformation in commerce, trade and economic landscape. Innovative technologies, intelligent assistants, smart devices are surrounding us in everyday life. They help us, anticipate us, make everyday life and tasks more manageable. For example, the logistics industry has changed dramatically since World Wide Web emerged. Manufacturing, transportation, last-mile delivery – all these areas and services have improved exponentially and keep getting better and more intelligent with the emergence of technologies and Artificial Intelligence. Industrial revolutions have affected the whole manufacturing and service industry, and it led to improvements in productivity and quality of service without a doubt. But together with progress and quality, some challenges accumulate in the companies, such as adopting new technologies and new concepts such as robotics, cybersecurity and artificial intelligence. These technologies are the “plants” of Industry 4.0. This paper aimed to present a comprehensive analysis of the interconnection between Industry 4.0 and Logistics 4.0, their impact on production, service delivery, working conditions, and how technological development creates a competitive advantage. To achieve the article's aim, the analysis is based on the literature review of scientific researchers and authors whose results contribute to science

Development of the Astyanax mexicanus circadian clock and non-visual light responses

Most animals and plants live on the planet exposed to periods of rhythmic light and dark. As such, they have evolved endogenous circadian clocks to regulate their physiology rhythmically, and non-visual light detection mechanisms to set the clock to the environmental light-dark cycle. In the case of fish, circadian pacemakers are not only present in the majority of tissues and cells, but these tissues are themselves directly light-sensitive, expressing a wide range of opsin photopigments. This broad non-visual light sensitivity exists to set the clock, but also impacts a wide range of fundamental cell biological processes, such as DNA repair regulation. In this context, Astyanax mexicanus is a very intriguing model system with which to explore non-visual light detection and circadian clock function. Previous work has shown that surface fish possess the same directly light entrainable circadian clocks, described above. The same is true for cave strains of Astyanax in the laboratory, though no daily rhythms have been observed under natural dark conditions in Mexico. There are, however, clear alterations in the cave strain light response and changes to the circadian clock, with a difference in phase of peak gene expression and a reduction in amplitude. In this study, we expand these early observations by exploring the development of non-visual light sensitivity and clock function between surface and cave populations. When does the circadian pacemaker begin to oscillate during development, and are there differences between the various strains? Is the difference in acute light sensitivity, seen in adults, apparent from the earliest stages of development? Our results show that both cave and surface populations must experience daily light exposure to establish a larval gene expression rhythm. These oscillations begin early, around the third day of development in all strains, but gene expression rhythms show a significantly higher amplitude in surface fish larvae. In addition, the light induction of clock genes is developmentally delayed in cave populations. Zebrafish embryonic light sensitivity has been shown to be critical not only for clock entrainment, but also for transcriptional activation of DNA repair processes. Similar downstream transcriptional responses to light also occur in Astyanax. Interestingly, the establishment of the adult timing profile of clock gene expression takes several days to become apparent. This fact may provide mechanistic insight into the key differences between the cave and surface fish clock mechanisms

Use of COX-2 inhibitors for preventing immunodeficiency

publication date: 2004-04-29; filing date: 2001-07-20The present invention provides a method of treating or preventing a disorder typified by an immunodificiency (e.g. HIV), wherein the patient is administered a COX-2 inhibitor or derivative or pharmaceutically acceptable salt thereof, preferably diisopropylfluorophasphate. L-745337, rofecoxib, NS 398, SC 58125, etodolac, meloxicam, celecoxib or nimesulide, and compositions and products containing the same or use of the same in preparing medicaments and for treatment

Social Network Characteristics and Psychological Well-Being: A Replication and Extension

This article represents a replication and extension of a previous study by Israel and her colleagues that investigated the relationship between psychological well-being and social network characteristics. The present research included both a comparable sample of white women (N=104) between the ages of 60 and 68 (as in the original study), and a more extensive adult population of men and women (N=718) between the ages of 50 and 95. The network characteristics examined are categorized along three broad dimensions: Structure—linkages in the overall network (size and density); interaction-nature of the linkages themselves (frequency, geographic dispersion, and reciprocity); and functions that networks provide (affective support and instrumental support). The results indicate a predominance of comparable findings for both the replication and extension studies. Of the eight network characteristics examined, the results of five of the regression analyses were the same across all three studies. The network characteristics of size, density, geographic dispersion, reciprocal instrumental support, and instrumental support did not make a significant contribution to the variance in psychological well-being. Of the other three network characteristics, the effect of frequency of interaction varied across the studies, and a pattern of significant results was found for affective support and reciprocal affective support. A discussion of this evidence in light of current literature and implications for practice and research is included.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/67842/2/10.1177_109019818701400406.pd

The association of acrocentric chromosomes in 1000 normal human male metaphase cells

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/65834/1/j.1469-1809.1967.tb00544.x.pd

Control of substrate access to the active site in methane monooxygenase

Methanotrophs consume methane as their major carbon source and have an essential role in the global carbon cycle by limiting escape of this greenhouse gas to the atmosphere. These bacteria oxidize methane to methanol by soluble and particulate methane monooxygenases (MMOs). Soluble MMO contains three protein components, a 251-kilodalton hydroxylase (MMOH), a 38.6-kilodalton reductase (MMOR), and a 15.9-kilodalton regulatory protein (MMOB), required to couple electron consumption with substrate hydroxylation at the catalytic diiron centre of MMOH. Until now, the role of MMOB has remained ambiguous owing to a lack of atomic-level information about the MMOH–MMOB (hereafter termed H–B) complex. Here we remedy this deficiency by providing a crystal structure of H–B, which reveals the manner by which MMOB controls the conformation of residues in MMOH crucial for substrate access to the active site. MMOB docks at the α[subscript 2]β[subscript 2] interface of α[subscript 2]β[subscript 2]γ[subscript 2] MMOH, and triggers simultaneous conformational changes in the α-subunit that modulate oxygen and methane access as well as proton delivery to the diiron centre. Without such careful control by MMOB of these substrate routes to the diiron active site, the enzyme operates as an NADH oxidase rather than a monooxygenase. Biological catalysis involving small substrates is often accomplished in nature by large proteins and protein complexes. The structure presented in this work provides an elegant example of this principle.National Institute of General Medical Sciences (U.S.) (Grant GM 32114