Project description:In this study, we introduced a series of expression constructs into a mouse lung cancer cell line (482N1): (1) a control short hairpin RNA (shluc) plus the empty expression vector (empty); (2) an shRNA targeting Hmga2 (shHmga2) plus empty; (3) shHmga2 plus an expression vector for the full-length Hmga2 cDNA with the shRNA site mutated (shHmga2 wt); (4) shHmga2 plus the full-length shRNA-mutated Hmga2 with let-7 sites in the 3' UTR mutated (shHmga2 m7); (5) shHmga2 plus the full-length shRNA-mutated Hmga2 with the start codon mutated (shHmga2 ATG wt); and (6) shHmga2 plus the full-length shRNA-mutated Hmga2 with the start codon and let-7 sites mutated (shHmga2 ATG m7). Cells were plated in triplicate, RNA was prepared using RNA-Bee as per manufacturers' instructions and RNA-seq studies were performed using standard methods. For further details on library construction and next-generation sequencing, please contact the contributor.

Project description:Thyroid hormone (TH) controls the remodeling of the pancreas and the liver. TH-induces dedifferentiation of the exocrine pancreas to a progenitor state (Proc. Nat. Acad Sci. 105, 8962-8967 (2008)) and it remodels the endocrine pancreas (Dev. Biol. 328, 384-391 (2009)). The redifferentiated frog pancreas resembles closely the pancreas of other typical vertebrates. Two pancreas arrays were carried out. The first one studied gene expression changes at different developmental stages of Xenopus laevis during metamorphosis. The second array studies gene expression changes at varying times after the addition of TH to premetamorphic tadpoles. Keywords: co-expression design,development or differentiation design,reference design,time series design Overall design: Thyroid hormone (TH) controls remodeling of the liver. The microarray was carried out to identify changes in gene expression at different stages of development during metamorphosis. This is part 2, done on the 22K Xenopus platform version 1. This dataset was from livers of Xenopus tadpoles (NF52, NF62, and NF66). Each was made in triplicate. Samples in all 3 parts of the study received the same thyroid hormone levels.

Project description:Thyroid hormone (TH) controls the remodeling of the pancreas and the liver. TH-induces dedifferentiation of the exocrine pancreas to a progenitor state (Proc. Nat. Acad Sci. 105, 8962-8967 (2008)) and it remodels the endocrine pancreas (Dev. Biol. 328, 384-391 (2009)). The redifferentiated frog pancreas resembles closely the pancreas of other typical vertebrates. Two pancreas arrays were carried out. The first one studied gene expression changes at different developmental stages of Xenopus laevis during metamorphosis. The second array studies gene expression changes at varying times after the addition of TH to premetamorphic tadpoles. Keywords: co-expression design,development or differentiation design,reference design,time series design Overall design: Thyroid hormone (TH) controls remodeling of the pancreas. The microarray was carried out to identify changes in gene expression at different stages of development during metamorphosis.. This is part 3, done on the 22K Xenopus platform version 2. This dataset was from pancreas of Xenopus tadpoles (NF52, NF62, and NF66). Each was made in triplicate. Samples in all 3 parts of the study received the same thyroid hormone levels.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "self-versus-self" experimental design was used to assess the false-positive rates in the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection. Keywords: self vs self design E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "self-versus-self" experimental design was used to assess the false-positive rates in the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples at various input levels. A "full-scale" reference was prepared using the standard input level of 6.0 ug total RNA, and one round of amplification was performed with 250 ng and 50 ng total RNA inputs. For 10 ng and 2 ng inputs, two rounds of amplification were used. Targets were compared on a microarray platform designed for this test using a "dye-swapped" experimental design, and sets of significantly differential genes were compared to the full scale reference's list to determine specificity and sensitivity in terms of detection of significant expression differences. Keywords: dye swap design,quality control testing design E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples at various input levels. A "full-scale" reference was prepared using the standard input level of 6.0 ug total RNA, and one round of amplification was performed with 250 ng and 50 ng total RNA inputs. For 10 ng and 2 ng inputs, two rounds of amplification were used. Targets were compared on a microarray platform designed for this test using a "dye-swapped" experimental design, and sets of significantly differential genes were compared to the full scale reference's list to determine specificity and sensitivity in terms of detection of significant expression differences.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "dye-swapped" experimental design was used to assess the accuracy and precision of the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection. Keywords: dye swap design,quality control testing design E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "dye-swapped" experimental design was used to assess the accuracy and precision of the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection.

Project description:Glyphosate (GLY) is an effective antimetabolite that acts against the shikimate pathway 5-enolpyruvylshikimate 3-phosphate (EPSP) synthase, However, little is known about the genome-scale transcriptional responses of bacteria after glyphosate shock. To investigate further the mechanisms by which E. coli response to a glyphosate shock, a DNA-based microarray was used for transcriptional analysis of E. coli exposed to 200 mM glyphosate. RNA extracted from cells of E. coli K-12 JM109 cells after 4 h of growth to OD600 achieve 0.4, or cells after 200 mM glyphosate shock for 1 h when their OD600 achieved 0.4.

Project description:A1501 aroA is a gene derived from Pseudomonas stutzeri A1501, encoding a class II glyphosate-tolerant EPSP synthase. To understand the effect of class II EPSP synthase to E. coli under glyphosate shock, we constructed the class II EPSP synthase-expressing plasmid pUC-A1501. And pUC18 is the empty vector used as a control. RNA extracted from cells of E. coli K-12 JM109 cells with pUCA1501 till OD600 to achieve 0.4, or cells with pUC18 when their OD600 achieved 0.4.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "dye-swapped" experimental design was used to assess the accuracy and precision of the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection.

Project description:E12.5 mouse whole embryos and placentas were pooled within 3 litters and total RNA was extracted. Fluorescently-labeled, linearly-amplified cRNA targets were prepared from the RNA samples and compared on a novel microarray design to validate the system. A "self-versus-self" experimental design was used to assess the false-positive rates in the system. The in situ-synthesized 60-mer oligonucleotide microarray platform contains approximately 22,000 DNA features, and was designed to detect transcripts from the entire NIA cDNA clone collection.