Jason Green scite author profile

The early treatment and rapid closure of acute or chronic wounds is essential for normal healing and prevention of hypertrophic scarring. The use of split thickness autografts is often limited by the availability of a suitable area of healthy donor skin to harvest. Cellular and non-cellular biological skin-equivalents are commonly used as an alternative treatment option for these patients, however these treatments usually involve multiple surgical procedures and associated with high costs of production and repeated wound treatment. Here we describe a novel design and a proof-of-concept validation of a mobile skin bioprinting system that provides rapid on-site management of extensive wounds. Integrated imaging technology facilitated the precise delivery of either autologous or allogeneic dermal fibroblasts and epidermal keratinocytes directly into an injured area, replicating the layered skin structure. Excisional wounds bioprinted with layered autologous dermal fibroblasts and epidermal keratinocytes in a hydrogel carrier showed rapid wound closure, reduced contraction and accelerated re-epithelialization. These regenerated tissues had a dermal structure and composition similar to healthy skin, with extensive collagen deposition arranged in large, organized fibers, extensive mature vascular formation and proliferating keratinocytes.

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Molecular Assays for DetectingAphanomyces invadansin Ulcerative Mycotic Fish Lesions

Vandersea

Litaker

Yonnish

et al. 2006

Appl Environ Microbiol

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The pathogenic oomycete Aphanomyces invadans is the primary etiological agent in ulcerative mycosis, an ulcerative skin disease caused by a fungus-like agent of wild and cultured fish. We developed sensitive PCR and fluorescent peptide nucleic acid in situ hybridization (FISH) assays to detect A. invadans. Laboratory-challenged killifish (Fundulus heteroclitus) were first tested to optimize and validate the assays. Skin ulcers of Atlantic menhaden (Brevoortia tyrannus) from populations found in the Pamlico and Neuse River estuaries in North Carolina were then surveyed. Results from both assays indicated that all of the lesioned menhaden (n ‫؍‬ 50) collected in September 2004 were positive for A. invadans. Neither the FISH assay nor the PCR assay cross-reacted with other closely related oomycetes. These results provided strong evidence that A. invadans is the primary oomycete pathogen in ulcerative mycosis and demonstrated the utility of the assays. The FISH assay is the first molecular assay to provide unambiguous visual confirmation that hyphae in the ulcerated lesions were exclusively A. invadans.

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A Connected Set of Genes Associated with Programmed Cell Death Implicated in Controlling the Hypersensitive Response in Maize

Olukolu¹,

Negeri²,

Dhawan³

et al. 2013

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Rp1-D21 is a maize auto-active resistance gene conferring a spontaneous hypersensitive response (HR) of variable severity depending on genetic background. We report an association mapping strategy based on the Mutant Assisted Gene Identification and Characterization approach to identify naturally occurring allelic variants associated with phenotypic variation in HR. Each member of a collection of 231 diverse inbred lines of maize constituting a high-resolution association mapping panel were crossed to a parental stock heterozygous for Rp1-D21, and the segregating F 1 generation testcrosses were evaluated for phenotypes associated with lesion severity for 2 years at two locations. A genome-wide scan for associations with HR was conducted with 47,445 SNPs using a linear mixed model that controlled for spurious associations due to population structure. Since the ability to identify candidate genes and the resolution of association mapping are highly influenced by linkage disequilibrium (LD), we examined the extent of genome-wide LD. On average, marker pairs separated by .10 kbp had an r 2 value of ,0.1. Genomic regions surrounding SNPs significantly associated with HR traits were locally saturated with additional SNP markers to establish local LD structure and precisely identify candidate genes. Six significantly associated SNPs at five loci were detected. At each locus, the associated SNP was located within or immediately adjacent to candidate causative genes predicted to play significant roles in the control of programmed cell death and especially in ubiquitin pathway-related processes.T HE hypersensitive response (HR) mechanism is a widespread and important plant defense response. Characterized by a rapid, localized cell death around the point of attempted pathogen penetration, it is a form of programmed cell death and is usually associated with an acute local resistance response and up-regulation of defense response pathways (Coll et al. 2011). HR and associated events are generally initiated by the products of resistance (R) genes, which trigger HR upon the recognition of specific pathogenderived molecules or molecular events (Bent and Mackey 2007). The HR and related responses are generally associated with resistance to biotrophic rather than necrotrophic pathogens. Among the multiple classes of R genes, those that encode proteins possessing a nucleotide-binding site (NBS) and a leucine-rich repeat (LRR) are the predominant class (Bent and Mackey 2007).The Rp1 locus on maize chromosome 10 carries multiple tandemly repeated NBS-LRR paralogs, some of which confer resistance to specific races of maize common rust conferred by the fungus Puccini sorghi (Hulbert 1997). The locus is meiotically unstable due to a high frequency of unequal crossovers between paralogs (Sudupak et al. 1993). In one such case, unequal crossing over followed by intragenic recombination resulted in the formation of the chimeric gene Rp1-D21 (Collins et al. 1999;Smith et al. 2010). In the resulting gene product, the recognition an...

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Transdifferentiation and reprogramming: Overview of the processes, their similarities and differences

Cieślar-Pobuda

Knoflach

Ringh

et al. 2017

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Reprogramming, or generation of induced pluripotent stem (iPS) cells (functionally similar to embryonic stem cells or ES cells) by the use of transcription factors (typically: Oct3/4, Sox2, c-Myc, Klf4) called "Yamanaka factors" (OSKM), has revolutionized regenerative medicine. However, factors used to induce stemness are also overexpressed in cancer. Both, ES cells and iPS cells cause teratoma formation when injected to tissues. This raises a safety concern for therapies based on iPS derivates. Transdifferentiation (lineage reprogramming, or -conversion), is a process in which one mature, specialized cell type changes into another without entering a pluripotent state. This process involves an ectopic expression of transcription factors and/or other stimuli. Unlike in the case of reprogramming, tissues obtained by this method do not carry the risk of subsequent teratomagenesis.

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Jason Green

In Situ Bioprinting of Autologous Skin Cells Accelerates Wound Healing of Extensive Excisional Full-Thickness Wounds

Molecular Assays for DetectingAphanomyces invadansin Ulcerative Mycotic Fish Lesions

A Connected Set of Genes Associated with Programmed Cell Death Implicated in Controlling the Hypersensitive Response in Maize

Transdifferentiation and reprogramming: Overview of the processes, their similarities and differences

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