Polymerase Chain Reaction for Detection of Peanut Mottle and Peanut Stripe Viruses in Arachis hypogaea L. Germplasm Seedlots

2007 ◽  
Vol 6 (1) ◽  
pp. 87-90 ◽  
Author(s):  
A.G. Gillaspie Jr. ◽  
M.L. Wang ◽  
D.L. Pinnow ◽  
R.N. Pittman
Keyword(s):  
Polymerase Chain Reaction ◽  
Arachis Hypogaea ◽  
Chain Reaction ◽  
Arachis Hypogaea L ◽  
Polymerase Chain

scholarly journals Desenvolvimento de marcadores moleculares para análogos a genes de resistência em Arachis spp. silvestres

2005 ◽  
Vol 30 (6) ◽  
pp. 663-667 ◽  
Author(s):  
Patrícia M. Guimarães ◽  
Ana Carolina F.V. José ◽  
Karina Proite ◽  
David J. Bertioli ◽  
Soraya C. M. Leal-Bertioli
Keyword(s):  
Polymerase Chain Reaction ◽  
Arachis Hypogaea ◽  
Chain Reaction ◽  
Polymerase Chain

O maior grupo de genes de resistência de plantas já clonados codifica para proteínas com um sítio de ligação a nucleotídios (NBS) na região N-terminal, e um domínio rico em repetições de leucina (LRR) na região C-terminal. Genes desta classe conferem resistência a diversos patógenos incluindo vírus, bactérias, fungos e nematóides. Para diferentes espécies do gênero Arachis, primers de "polymerase chain reaction" (PCR) degenerados foram construídos para a região NBS, e o produto de tradução putativo indicou similaridade com proteínas de resistência conhecidas sendo denominados análogos a genes de resistência (RGAs). Doze destes RGAs foram utilizados para o desenvolvimento de marcadores moleculares baseados em seus padrões de hibridização com DNA de Arachis spp. digerido com enzimas de restrição. Inicialmente, avaliou-se o polimorfismo de cada RGA como sonda nos parentais de uma população de mapeamento, contrastantes quanto à resistência as manchas foliares e nematóides das galhas, e no híbrido F1. Os RGAs, mesmo isolados de espécies diferentes do gênero Arachis apresentaram homologia com o DNA das espécies testadas, além de apresentarem múltiplas cópias e alto polimorfismo na progênie F2. Todas estas características tornam estes RGAs marcadores moleculares altamente informativos, sendo que alguns apresentaram segregação em "clusters" na F2, indicando que seus locos estão ligados. Estes marcadores serão incluídos em um mapa genético de Arachis spp., o que será de grande utilidade para os programas de melhoramento do amendoim (Arachis hypogaea) cultivado.

A SPECIFIC QUALITATIVE DETECTION METHOD FOR PEANUT (ARACHIS HYPOGAEA) IN FOODS USING POLYMERASE CHAIN REACTION

2006 ◽  
Vol 30 (2) ◽  
pp. 215-233 ◽  
Author(s):  
TAKAHIRO WATANABE ◽  
HIROSHI AKIYAMA ◽  
SOHEILA MALEKI ◽  
HIROHITO YAMAKAWA ◽  
KEN IIJIMA ◽  
...  
Keyword(s):  
Polymerase Chain Reaction ◽  
Arachis Hypogaea ◽  
Detection Method ◽  
Chain Reaction ◽  
Qualitative Detection ◽  
Polymerase Chain

High performance Nanogold™-in situ hybridzation and its use in the detection of hybridized and PCR-amplified microscopical preparations

1996 ◽  
Vol 54 ◽  
pp. 896-897
Author(s):  
G. W. Hacker ◽  
I. Zehbe ◽  
J. Hainfeld ◽  
A.-H. Graf ◽  
C. Hauser-Kronberger ◽  
...  
Keyword(s):  
Polymerase Chain Reaction ◽  
Messenger Rna ◽  
High Performance ◽  
Detection System ◽  
Direct Methods ◽  
Genetic Alterations ◽  
Chain Reaction ◽  
Protein Encoding ◽  
Polymerase Chain

In situ hybridization (ISH) with biotin-labeled probes is increasingly used in histology, histopathology and molecular biology, to detect genetic nucleic acid sequences of interest, such as viruses, genetic alterations and peptide-/protein-encoding messenger RNA (mRNA). In situ polymerase chain reaction (PCR) (PCR in situ hybridization = PISH) and the new in situ self-sustained sequence replication-based amplification (3SR) method even allow the detection of single copies of DNA or RNA in cytological and histological material. However, there is a number of considerable problems with the in situ PCR methods available today: False positives due to mis-priming of DNA breakdown products contained in several types of cells causing non-specific incorporation of label in direct methods, and re-diffusion artefacts of amplicons into previously negative cells have been observed. To avoid these problems, super-sensitive ISH procedures can be used, and it is well known that the sensitivity and outcome of these methods partially depend on the detection system used.

1504: Molecular Diagnosis and Staging of Prostate Cancer Using Clusterin in Real Time Reverse Transcription Polymerase Chain Reaction (RT-PCR)

2006 ◽  
Vol 175 (4S) ◽  
pp. 485-486
Author(s):  
Sabarinath B. Nair ◽  
Christodoulos Pipinikas ◽  
Roger Kirby ◽  
Nick Carter ◽  
Christiane Fenske
Keyword(s):  
Prostate Cancer ◽  
Polymerase Chain Reaction ◽  
Real Time ◽  
Molecular Diagnosis ◽  
Reverse Transcription ◽  
Rt Pcr ◽  
Chain Reaction ◽  
Polymerase Chain

Detection of the Glanzmann's Thrombasthenia Mutations in Arab and Iraqi-Jewish Patients by Polymerase Chain Reaction and Restriction Analysis of Blood or Urine Samples

1991 ◽  
Vol 66 (04) ◽  
pp. 500-504 ◽  
Author(s):  
H Peretz ◽  
U Seligsohn ◽  
E Zwang ◽  
B S Coller ◽  
P J Newman
Keyword(s):  
Polymerase Chain Reaction ◽  
Base Pair ◽  
Restriction Analysis ◽  
Urine Samples ◽  
Chain Reaction ◽  
Base Pairs ◽  
Glanzmann’S Thrombasthenia ◽  
Glanzmann's Thrombasthenia ◽  
Base Pair Deletion ◽  
Polymerase Chain

SummarySevere Glanzmann's thrombasthenia is relatively frequent in Iraqi-Jews and Arabs residing in Israel. We have recently described the mutations responsible for the disease in Iraqi-Jews – an 11 base pair deletion in exon 12 of the glycoprotein IIIa gene, and in Arabs – a 13 base pair deletion at the AG acceptor splice site of exon 4 on the glycoprotein IIb gene. In this communication we show that the Iraqi-Jewish mutation can be identified directly by polymerase chain reaction and gel electrophoresis. With specially designed oligonucleotide primers encompassing the mutation site, an 80 base pair segment amplified in healthy controls was clearly distinguished from the 69 base pair segment produced in patients. Patients from 11 unrelated Iraqi-Jewish families had the same mutation. The Arab mutation was identified by first amplifying a DNA segment consisting of 312 base pairs in controls and of 299 base pairs in patients, and then digestion by a restriction enzyme Stu-1, which recognizes a site that is absent in the mutant gene. In controls the 312 bp segment was digested into 235 and 77 bp fragments, while in patients there was no change in the size of the amplified 299 bp segment. The mutation was found in patients from 3 out of 5 unrelated Arab families. Both Iraqi-Jewish and Arab mutations were detectable in DNA extracted from blood and urine samples. The described simple methods of identifying the mutations should be useful for detection of the numerous potential carriers among the affected kindreds and for prenatal diagnosis using DNA extracted from chorionic villi samples.

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