High-throughput Avian Molecular Sexing by SYBR Green-based Real-time PCR Combined with Melting Curve Analysis

Overview

Journal BMC Biotechnol

Publisher Biomed Central

Specialty Biotechnology

Date 2008 Feb 14

PMID 18269737

Citations 19

Authors

Hsueh-Wei Chang

Chun-An Cheng

De-Leung Gu

Chia-Che Chang

San-Hua Su

Cheng-Hao Wen

Yii-Cheng Chou

Ta-Ching Chou

Cheng-Te Yao

Chi-Li Tsai

Chien-Chung Cheng

Affiliations

Soon will be listed here.

Abstract

Background: Combination of CHD (chromo-helicase-DNA binding protein)-specific polymerase chain reaction (PCR) with electrophoresis (PCR/electrophoresis) is the most common avian molecular sexing technique but it is lab-intensive and gel-required. Gender determination often fails when the difference in length between the PCR products of CHD-Z and CHD-W genes is too short to be resolved.

Results: Here, we are the first to introduce a PCR-melting curve analysis (PCR/MCA) to identify the gender of birds by genomic DNA, which is gel-free, quick, and inexpensive. Spilornis cheela hoya (S. c. hoya) and Pycnonotus sinensis (P. sinensis) were used to illustrate this novel molecular sexing technique. The difference in the length of CHD genes in S. c. hoya and P. sinensis is 13-, and 52-bp, respectively. Using Griffiths' P2/P8 primers, molecular sexing failed both in PCR/electrophoresis of S. c. hoya and in PCR/MCA of S. c. hoya and P. sinensis. In contrast, we redesigned sex-specific primers to yield 185- and 112-bp PCR products for the CHD-Z and CHD-W genes of S. c. hoya, respectively, using PCR/MCA. Using this specific primer set, at least 13 samples of S. c. hoya were examined simultaneously and the Tm peaks of CHD-Z and CHD-W PCR products were distinguished.

Conclusion: In this study, we introduced a high-throughput avian molecular sexing technique and successfully applied it to two species. This new method holds a great potential for use in high throughput sexing of other avian species, as well.

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