Glycine max

Description

• Glycine max is a species of legume native to East Asia. It is the world's major economically important agricultural crop widely grown for its edible bean. It also provides important source of vegetable oil and proteins and has numerous uses such as biofuel, feedstock, industrial products, and cosmetics. The main countries growing soybeans are the United States, Brazil and Argentina^[1][2].
• Common Name: Soybean
• NCBI Taxonomy

Heavy Metals & Heat Treatments

Internal Control Genes

Gene Symbol	Gene Name	Application Scope	Accession Number	Primers (5'-3') [Forward/Reverse]	Size [bp]	Tm [℃]	Detection
TUA4[1]	Tubulin alpha-4	Roots under Al stress Roots and leaves under heat stress	LOC100781185	F:CATACCCTAGAATCCATTTC-3 R:TGTACTTTCCGTGACGAG-3	159	60	SYBR
Fbox[1]	F-box protein SKIP16-like	Roots and leaves under Cd stress	LOC100809876	F:AGATAGGGAAATTGTGCAGGT-3 R:CTAATGGCAATTGCAGCTCTC-3	93	60	SYBR
UKN2[1]	Hypothetical protein	Roots and leaves under Cd stress Roots and leaves under heat stress	LOC100789577	F:TGTGCTCTGTGAAGAGATTG-3 R:TCATAATCTGTGTGCAGTTC-3	156	60	SYBR
60SRP[1]	60S ribosome protein	Roots and leaves under Cd stress	LOC100778077	F:AAAGTGGACCAAGGCATATCGTCG-3 R:TCAGGACATTCTCCGCAAGATTCC-3	125	60	SYBR

Molecular Types

• mRNA

Evaluation Methods

• geNorm method && Related Reference
• NormFinder method && Related Reference
• BestKeeper method && Related Reference
• Comparative ΔCt method && Related Reference
• Ref-Finder method && Related Reference

Contact

• Name: Yan Li
• Email: yanli1@njau.edu.cn
• Institution: National Key Laboratory of Crop Genetics and Germplasm Enhancement, National Center for Soybean Improvement, Key Laboratory for Biology and Genetic Improvement of Soybean (General, Ministry of Agriculture), Jiangsu Collaborative Innovation Center for Modern Crop Production, Nanjing Agricultural University, Nanjing, Jiangsu, China

Citation Statistics

Cited by 1 (Based on Google Scholar [2017-08-10])

Biotic Stresses

Internal Control Genes

Gene Symbol	Gene Name	Application Scope	Accession Number	Primers (5'-3') [Forward/Reverse]	Size [bp]	Tm [℃]	Detection
ABCT[2]	ATP-binding cassette transporter	BPMV and SBA stress	Glyma.12g020500	F:CTTTGCTTTTATTCCGAATGG R:GCCTGCTTCAGATAAAATAGAT	166	79.5	SYBR
FBOX[2]	F-box only protein	BPMV and SBA stress	Glyma.12g051100	F:GAAAGCAGAAAGATGGGGTTGG R:CACACACGCCACTCTCGCAA	99	80	SYBR
TUA4[2]	Tubulin alpha-4	PMD stress TSSM stress	Glyma.20g136000	F:TGTGTACCAGTACCGATGTGGT R:GCACTCCCGTGCCCGTAA	150	79.5	SYBR
CYP[2]	Cyclophilin	PMD stress	Glyma.12g024700	F:GTCGAGGGGATGGACGTC R:CGACACATTCAGAGCCACCGA	158	85	SYBR
TUB4[2]	Tubulin beta-4	TSSM stress	Glyma.19g127700	F:TTCTCTGCACTCTTCATCAAGCTC R:CACACCACTTCCCAGAACTTG	117	83	SYBR

Molecular Types

• mRNA

Evaluation Methods

• geNorm method && Related Reference
• NormFinder method && Related Reference
• BestKeeper method && Related Reference

Contact

• Name: Raman Bansal
• Email: bansal.67@osu.edu
• Institution: Department of Entomology, Ohio Agricultural Research and Development Center, The Ohio State University, Wooster, OH, 44691, United States of America

Citation Statistics

Cited by 10 (Based on Google Scholar [2017-08-10])

Different Tissues & Abiotic Stress

Internal Control Genes

Gene Symbol	Gene Name	Application Scope	Accession Number	Primers (5'-3') [Forward/Reverse]	Size [bp]	Tm [℃]	Detection
Fbox[3]	F-box protein family	Root and shoot tissues of soybean seedlings with dehydration treatment Root and shoot tissues of soybean seedlings under salt, ABA and cold stress	Glyma12g05510	F:GATCAGCAATTATGCACAACG R:CTAATGGCAATTGCAGCTCTC	118	60	SYBR
ABCT[3]	ATP-binding cassette transporter	Root and shoot tissues of soybean seedlings with dehydration treatment	Glyma12g02310	F:GAGCTATGAATTGCCTGATGG R:CCGCCACCATTCAGATTATGT	106	60	SYBR
60SRP[3]	60s Ribosomal protein L30	Root and shoot tissues of soybean seedlings with dehydration treatment Root and shoot tissues of soybean seedlings under cold & ABA stress	Glyma17g05270	F:AAAGTGGACCAAGGCATATCGTCG R:TCAGGACATTCTCCGCAAGATTCC	125	60	SYBR
ELF1b[3]	Eukaryotic elongation factor 1 beta	Root and shoot tissues of soybean seedlings under salt & ABA stress	Glyma02g44460	F:GTTGAAAAGCCAGGGGACA R:TCTTACCCCTTGAGCGTGG	118	60	SYBR
IDE[3]	Insulin-degrading enzyme	Root and shoot tissues of soybean seedlings under salt stress Root and shoot tissues of soybean seedlings under cold stress	AW310136	F:ATGAATGACGGTTCCCATGTA R:GGCATTAAGGCAGCTCACTCT	131	60	SYBR
Act27[3]	Actin	Root and shoot tissues of soybean seedlings under cold stress	Glyma19g32990	F:CTTCCCTCAGCACCTTCCAA R:GGTCCAGCTTTCACACTCCAT	119	60	SYBR

Molecular Types

• mRNA

Evaluation Methods

• geNorm method && Related Reference
• Comparative ΔCt method && Related Reference

Contact

• Name: Henry T. Nguyen
• Email: nguyenhenry@missouri.edu
• Institution: National Center for Soybean Biotechnology and Division of Plant Sciences,University of Missouri, Columbia, Missouri, United States of America

Citation Statistics

Cited by 83 (Based on Google Scholar [2017-08-10])

Hypoxic Condition

Internal Control Genes

Gene Symbol	Gene Name	Application Scope	Accession Number	Primers (5'-3') [Forward/Reverse]	Size [bp]	Tm [℃]	Detection
ELF1B[4]	Elongation factor 1-beta	Flooding stress	Glyma02g44460	F:GTTGAAAAGCCAGGGGACA-3 R:TCTTACCCCTTGAGCGTGG-3	118	60	SYBR
ACTB[4]	Actin-11	Flooding stress	Glyma15g05570	F:GAGCTATGAATTGCCTGATGG-3 R:CGTTTCATGAATTCCAGTAGC-3	118	60	SYBR

Molecular Types

• mRNA

Evaluation Methods

• geNorm method && Related Reference
• NormFinder method && Related Reference

Contact

• Name: A.L. Nepomuceno
• Email: alexandre.nepomuceno@embrapa.br
• Institution: Laboratório de Biotecnologia Vegetal, Embrapa Soja, Londrina, PR, Brasil

Citation Statistics

Cited by 10 (Based on Google Scholar [2017-08-10])

Abiotic or Biotic Stress

Internal Control Genes

Gene Symbol	Gene Name	Application Scope	Accession Number	Primers (5'-3') [Forward/Reverse]	Size [bp]	Tm [℃]	Detection
miR1520d[5]	miR1520d	Different soybean tissues and genotypes Abiotic or biotic stress treatments	NR_048594	F:ATCAGAACATGACACGTGACAA-3 R:GTGCAGGGTCCGAGGT-3	70	60	SYBR
miR156b[5]	miR156b	Different soybean tissues and genotypes Abiotic or biotic stress treatments	NR_126594	F:TGACAGAAGAGAGAGAGCACA-3 R:GTGCAGGGTCCGAGGT-3	72	60	SYBR

Molecular Types

• miRNA

Evaluation Methods

• geNorm method && Related Reference
• NormFinder method && Related Reference

Contact

• Name: Rogério Margis
• Email: rogerio.margis@ufrgs.br
• Institution: Centre of Biotechnology, Laboratory of Genomes and Plant Population, Building 43431, Federal University of Rio Grande do Sul–UFRGS, P.O. Box 15005, CEP 91501-970, Porto Alegre, RS, Brazil

Citation Statistics

Cited by 82 (Based on Google Scholar [2017-08-10])

References

1. ↑ ^{1.0 1.1 1.2 1.3 1.4} Gao M, Liu Y, Ma X, et al. Evaluation of Reference Genes for Normalization of Gene Expression Using Quantitative RT-PCR under Aluminum, Cadmium, and Heat Stresses in Soybean[J]. PloS one, 2017, 12(1): e0168965.
2. ↑ ^{2.0 2.1 2.2 2.3 2.4 2.5} Bansal R, Mittapelly P, Cassone B J, et al. Recommended reference genes for quantitative PCR analysis in soybean have variable stabilities during diverse biotic stresses[J]. PloS one, 2015, 10(8): e0134890.
3. ↑ ^{3.0 3.1 3.2 3.3 3.4 3.5} Le D T, Aldrich D L, Valliyodan B, et al. Evaluation of candidate reference genes for normalization of quantitative RT-PCR in soybean tissues under various abiotic stress conditions[J]. PLoS One, 2012, 7(9): e46487.
4. ↑ ^{4.0 4.1} Nakayama T J, Rodrigues F A, Neumaier N, et al. Reference genes for quantitative real-time polymerase chain reaction studies in soybean plants under hypoxic conditions[J]. Genet Mol Res, 2014, 13: 860-871.
5. ↑ ^{5.0 5.1} Kulcheski, Franceli Rodrigues, et al. "The use of microRNAs as reference genes for quantitative polymerase chain reaction in soybean." Analytical biochemistry 406.2 (2010): 185-192.

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