Your search keyword '"Deng, Ming Y."' showing total 2 results

1. Use of quantitative real-time and conventional PCR to assess the stability of the cp4 epsps transgene from Roundup Ready canola in the intestinal, ruminal, and fecal contents of sheep.

Author

Alexander TW, Sharma R, Deng MY, Whetsell AJ, Jennings JC, Wang Y, Okine E, Damgaard D, and McAllister TA

Subjects

Animals, Base Sequence, DNA, Plant analysis, DNA, Plant chemistry, Genomic Instability genetics, Molecular Sequence Data, Online Systems, Sheep, Glyphosate, Brassica genetics, DNA, Plant genetics, Feces chemistry, Food, Genetically Modified, Glycine analogs & derivatives, Intestines chemistry, Polymerase Chain Reaction methods, Rumen chemistry

Abstract

The stability of transgenic DNA encoding the synthetic cp4 epsps protein in a diet containing Roundup Ready (RR) canola meal was determined in duodenal fluid (DF) batch cultures from sheep. A real-time TaqMan PCR assay was designed to quantify the degradation of cp4 epsps DNA during incubation in DF at pH 5 or 7. The copy number of cp4 epsps DNA in the diet declined more rapidly (P < 0.05) in DF at pH 5 as compared to pH 7. The decrease was attributed mainly to microbial activity at pH 7 and perhaps to plant endogenous enzymes at pH 5. The 62-bp fragment of cp4 epsps DNA detected by real-time PCR reached a maximum of approximately 1600 copies in the aqueous phase of DF at pH 7, whereas less than 20 copies were detected during incubations in DF at pH 5. A 1363-bp sequence of cp4 epsps DNA was never detected in the aqueous fraction of DF. Additionally, genomic DNA isolated from RR canola seed was used to test the persistence of fragments of free DNA in DF at pH 3.2, 5, and 7, as well as in ruminal fluid and feces. Primers spanning the cp4 epsps DNA coding region amplified sequences ranging in size from 300 to 1363 bp. Free transgenic DNA was least stable in DF at pH 7 where fragments less than 527 bp were detected for up to 2 min and fragments as large as 1363 bp were detected for 0.5 min. This study shows that digestion of plant material and release of transgenic DNA can occur in the ovine small intestine. However, free DNA is rapidly degraded at neutral pH in DF, thus reducing the likelihood that intact transgenic DNA would be available for absorption through the Peyer's Patches in the distal ileum.

Published

2004

2. Diagnosis of Porcine teschovirus encephalomyelitis in the Republic of Haiti.

Author

Deng, Ming Y., Millien, Max, Jacques-Simon, Rodney, Flanagan, J. Keith, Bracht, Alexa J., Carrillo, Consuelo, Barrette, Roger W., Fabian, Andrew, Mohamed, Fawzi, Moran, Karen, Rowland, Jessica, Swenson, Sabrina L., Jenkins-Moore, Melinda, Koster, Leo, Thomsen, Bruce V., Mayr, Gregory, Pyburn, Dave, Morales, Paula, Shaw, John, and Burrage, Thomas

Subjects

SWINE diseases, EUTHANASIA of animals, ENCEPHALOMYELITIS, POLYMERASE chain reaction, AFRICAN swine fever virus

Abstract

In February and March 2009, approximately 1,500 backyard pigs of variable age became sick, and approximately 700 of them died or were euthanized in the Lower Artibonite Valley and the Lower Plateau of the Republic of Haiti. The main clinical sign was posterior ataxia followed by paresis and/or paralysis on the second or third day of illness. No gross lesions were observed at postmortem examinations. The morbidity and mortality were approximately 60% and 40%, respectively. Diagnostic samples (whole blood, brain, tonsil, lymph nodes, spleen, and lung) were negative for Classical swine fever virus and African swine fever virus. Porcine teschovirus type 1 was detected by reverse transcription polymerase chain reactions in brain samples. Results of virus isolation, electron microscopy of virus particles, histopathological analysis on brain tissues, nucleic acid sequencing, and phylogenetic analysis of the viral isolate supported the diagnosis of teschovirus encephalomyelitis. The outbreak of the disease in Haiti is the first appearance of the severe form of teschovirus encephalomyelitis in the Americas. This disease poses a potential threat to the swine industries in other Caribbean countries, as well as to Central and North American countries. [ABSTRACT FROM PUBLISHER]

Published

2012