Research Article

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06/28/2013
BPI gene; Gene expression; Pig; Real-time PCR

We compared and analyzed the expression of the BPI gene of Sutai piglets ranging from newborn to post-weaning days 8, 18, 30, and 35 by the real-time PCR method, in order to determine if it is involved in protection against disease caused by ETEC F18. There was a significant difference between 18 and 35-day expres­sion in the jejunum. There were also significant differences ... more

J. Zhu; C. Zi; Z.C. Wu; L. Liu; X.R. Zheng; X.M. Su; G.Q. Zhu; X.G. Huang; S.L. Wu; W.B. Bao
03/24/2014
Conjugated linoleic acid; Gene expression; meat quality; Pig Muscle fiber

A total of 160 Rongchang pigs (26.76 ± 1.78 kg) were randomly assigned to 5 dietary treatment groups until their body weight (BW) reached 90 kg. The diets were supplemented with 0, 0.5, 1.0, 1.5, and 2.0% conjugated linoleic acid (CLA). Our results showed that the 1.0 to 2.0% CLA-fed pigs had less back fat deposition when their BW reached 90 kg than the pigs that received less than 1% CLA ... more

J.X. Huang; R.L. Qi; X.L. Chen; X.Y. You; X.Q. Liu; F.Y. Yang; Z.H. Liu
03/06/2015
Gene expression; Growth stages; Mitochondrial DNA copy number; Pig

Mitochondrial DNA (mtDNA) content is dependent on the energy requirements of tissues. To date, no comprehensive study has been conducted to examine mtDNA copy number variations in pigs. In the current study, quantitative polymerase chain reaction was performed to quantify the mtDNA copy number in 15 pig tissue types at 5 growth stages from embryo to adult. Observable differences in mtDNA ... more

Y.M. Xie; L. Jin; X.J. Chen; M.N. He; Y. Wang; R. Liu; M.Z. Li; X.W. Li
03/31/2003
Double-stranded RNA (dsRNA); Gene expression; RNA interference; Trypanosoma

Mechanisms controlling gene expression in trypanosomatids depend on several layers of regulation, with most regulatory pathways acting at a post-transcriptional level. Consequently, these parasites can follow the rapid changes associated with transitions between the insect vector and the mammalian host, with instant reprogramming of genetic expression. Using primarily Trypanosoma ... more

S.M.R. Teixeira; W.D. da Rocha
10/04/2007
Co-regulation; Escherichia coli; Gene expression; Microarray analysis; Partial correlation; Transcriptional regulation

Transcriptional control is an essential regulatory mechanism employed by bacteria. Much about transcriptional regulation remains to be discovered, even for the most widely studied bacterium, Escherichia coli. In the present study, we made a genome-wide low-order partial correlation analysis of E. coli microarray data with the purpose of recovering regulatory ... more

D.F.T. Veiga; F.F.R. Vicente; M. Grivet; A. de la Fuente; A.T.R. Vasconcelos
03/31/2006
Bayesian bootstrap; Bioinformatics; Gene expression; Microarray; Statistics; Web tool

One of the goals of gene expression experiments is the identification of differentially expressed genes among populations that could be used as markers. For this purpose, we implemented a model-free Bayesian approach in a user-friendly and freely available web-based tool called BayBoots. In spite of a common misunderstanding that Bayesian and model-free approaches are incompatible, ... more

R.Z.N. Vêncio; D.F.C. Patrão; C.S. Baptista; C.A.B. Pereira; B. Zingales
09/30/2005
Feature selection; Gene expression; Genetic algorithms; Microarrays; Multi-class SVM

Microarrays are a new technology that allows biologists to better understand the interactions between diverse pathologic state at the gene level. However, the amount of data generated by these tools becomes problematic, even though data are supposed to be automatically analyzed (e.g., for diagnostic purposes). The issue becomes more complex when the expression data involve multiple ... more

B.Feres de Souza; A.Ponce de L. de Carvalho
10/14/2008
alpha-major regulatory element; Gene expression; globin genes; Hemoglobin; HS-40; thalassemia

Hemoglobin and globin genes are important models for studying protein and gene structure, function and regulation. We reviewed the main aspects of regulation of human α-globin synthesis, encoded by two adjacent genes (α2 and α1) clustered on chromosome 16. Their expression is controlled mainly by a regulatory element located 40 kb upstream on the same chromosome, the α- ... more

D.M. Ribeiro; M.F. Sonati
12/08/2011
Anatomy; DREB1A; Gene expression; Glycine max; Physiology; Water deficit

We evaluated the molecular, anatomical and physiological properties of a soybean line transformed to improve drought tolerance with an rd29A:AtDREB1A construct. This construct expressed dehydration- responsive element binding protein DREB1A from the stress-inducible rd29A promoter. The greenhouse growth test included four randomized blocks of soybean plants, with each ... more

A.M. Polizel; M.E. Medri; K. Nakashima; N. Yamanaka; J.R.B. Farias; M.C.N. de Oliveira; S.R.R. Marin; R.V. Abdelnoor; F.C. Marcelino-Guimarães; R. Fuganti; F.A. Rodrigues; R. Stolf-Moreira; M.A. Beneventi; A.A.P. Rolla; N. Neumaier; K. Yamaguchi-Shinozaki; J.F.C. Carvalho; A.L. Nepomuceno
11/22/2011
b-actin; DEP chip; Electrochemical biosensor; Gene expression; Hoechst 33258; RAGE

An electrochemical biosensor, using a disposable electrochemical printed chip aggregation by the bisbenzimide dye (Hoechst 33258), was used for detecting the expression of β-actin and RAGE genes. Using linear sweep voltammetry, the expression of these two genes in HeLa and HepG2 cell lines was determined based on anodic peak current, and the results were compared with conventional agarose ... more

P. Kittimongkolsuk; T. Tencomnao; R. Santiyanont

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