High-throughput genotyping of hop (Humulus lupulus L.) utilising diversity arrays technology (DArT)

Howard, Evangeline; Whittock, Simon P.; Jakše, Jernej; Carling, Jason; Matthews, Paul D.; Probasco, Gene; Henning, Jimmy C.; Darby, Peter; Čerenak, A.; Javornik, Branka; Kilian, Andrzej; Koutoulis, Anthony

doi:10.1007/s00122-011-1529-4

Cited by 31 publications

(37 citation statements)

References 63 publications

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“…The average reproducibility of all the DArT markers was 98.6% which was similar to that obtained in barley (99.8%) (Wenzl et al 2004), hop (100%) (Howard et al 2011) and pigeonpea (99.7%). Call rate being 90.9% and which expresses the reliability of the final scores versus the maximum number of potential scores, was similar to sugarcane (92.5%) (Heller-Uszynska et al 2010) and banana (91.6%) (Risterucci et al 2009) was slightly lower than barley (95.0%) (Wenzl et al 2004), wheat (99.2%) (Akbari et al 2006), pigeonpea (96.0%) (Yang et al 2006) and hop (97.6%) (Howard et al 2011).…”

Section: Discussionsupporting

confidence: 79%

“…Call rate being 90.9% and which expresses the reliability of the final scores versus the maximum number of potential scores, was similar to sugarcane (92.5%) (Heller-Uszynska et al 2010) and banana (91.6%) (Risterucci et al 2009) was slightly lower than barley (95.0%) (Wenzl et al 2004), wheat (99.2%) (Akbari et al 2006), pigeonpea (96.0%) (Yang et al 2006) and hop (97.6%) (Howard et al 2011). The P value here was 86.8%, which agreed with the values obtained in hop (89.9%) (Howard et al 2011) and was slightly higher compared to banana (81.4%) and sugarcane (80.7%) (Heller-Uszynska et al 2010). …”

Section: Discussionmentioning

confidence: 63%

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Construction of integrated linkage map of a recombinant inbred line population of white lupin (<i>Lupinus albus</i> L.)

et al. 2013

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We report the development of a Diversity Arrays Technology (DArT) marker panel and its utilisation in the development of an integrated genetic linkage map of white lupin (Lupinus albus L.) using an F8 recombinant inbred line population derived from Kiev Mutant/P27174. One hundred and thirty-six DArT markers were merged into the first genetic linkage map composed of 220 amplified fragment length polymorphisms (AFLPs) and 105 genic markers. The integrated map consists of 38 linkage groups of 441 markers and spans a total length of 2,169 cM, with an average interval size of 4.6 cM. The DArT markers exhibited good genome coverage and were associated with previously identified genic and AFLP markers linked with quantitative trait loci for anthracnose resistance, flowering time and alkaloid content. The improved genetic linkage map of white lupin will aid in the identification of markers for traits of interest and future syntenic studies.

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Section: Discussionsupporting

confidence: 79%

Section: Discussionmentioning

confidence: 63%

Construction of integrated linkage map of a recombinant inbred line population of white lupin (<i>Lupinus albus</i> L.)

et al. 2013

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“…Studies which have examined the genetic diversity of hop have determined two primary genetic groupings: European and North American [53-61]. The genotypes used in previous hop studies [24,26,27,31] were largely of European genetic origin and from a relatively narrow genetic base.…”

Section: Discussionmentioning

confidence: 99%

Quantitative genetic parameters for yield, plant growth and cone chemical traits in hop (Humulus lupulus L.)

et al. 2014

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BackgroundMost traits targeted in the genetic improvement of hop are quantitative in nature. Improvement based on selection of these traits requires a comprehensive understanding of their inheritance. This study estimated quantitative genetic parameters for 20 traits related to three key objectives for the genetic improvement of hop: cone chemistry, cone yield and agronomic characteristics.ResultsSignificant heritable genetic variation was identified for α-acid and β-acid, as well as their components and relative proportions. Estimates of narrow-sense heritability for these traits (h 2 = 0.15 to 0.29) were lower than those reported in previous hop studies, but were based on a broader suite of families (108 from European, North American and hybrid origins). Narrow-sense heritabilities are reported for hop growth traits for the first time (h 2 = 0.04 to 0.20), relating to important agronomic characteristics such as emergence, height and lateral morphology. Cone chemistry and growth traits were significantly genetically correlated, such that families with more vigorous vegetative growth were associated with lower α-acid and β-acid levels. This trend may reflect the underlying population structure of founder genotypes (European and North American origins) as well as past selection in the Australian environment. Although male and female hop plants are thought to be indistinguishable until flowering, sex was found to influence variation in many growth traits, with male and female plants displaying differences in vegetative morphology from emergence to cone maturity.ConclusionsThis study reveals important insights into the genetic control of quantitative hop traits. The information gained will provide hop breeders with a greater understanding of the additive genetic factors which affect selection of cone chemistry, yield and agronomic characteristics in hop, aiding in the future development of improved cultivars.

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“…It was found to be more sensitive for genotyping of hops (Hartl and Seefelder, 1998;Seefelder et al, 2000;Townsend et al, 2000;Jakše et al, 2001;Patzak, 2001;2002;Fleisher et al, 2004;Townsend and Henning, 2009;Reeves and Richards, 2011;Solberg et al, 2014) and could detect also somaclonal variability (Patzak, 2003;Peredo et al, 2006;. Unknown sequences in molecular hybridization system have also been used in Diversity Arrays Technology (DArT) method (Howard et al, 2011) but better identifi cation and determination of hop cultivars is achieved when using DNA sequence specifi c methods such as the previously mentioned STS methods in structural genes (Patzak et al, 2007;Bassil et al, 2008;Castro et al, 2008;Venger et al, 2015). Microsatellite nucleotide (di-or tri-) repeats are the most useful for molecular genetic analysis of variability and evaluation of biodiversity in different plant zeny nové molekulární markery typu jednoduchých sekvenčních repetic v exprimovaných sekvenčních úsecích (EST-SSR) (Patzak a Matoušek, 2011;Jakše et al, 2011;Koelling et al, 2012;Singh et al, 2012) a jedno-nukleotidového polymorfi smu (SNP) (Matthews et al, 2013;Yamauchi et al, 2014;Henning et al, 2015).…”

Section: ■ 3 Genetic Methodsmentioning

confidence: 99%

“…Je citlivější pro genotypizaci chmele (Hartl a Seefelder, 1998;Seefelder et al, 2000;Townsend et al, 2000;Jakše et al, 2001;Patzak, 2001;2002;Fleischer et al, 2004;Townsend a Henning, 2009;Reeves a Richards, 2011;Solberg et al, 2014) a dokáže detekovat též somaklonální variabilitu (Patzak, 2003;Peredo et al, 2006;. Neznámé sekvence v systému molekulární hybridizace byly využity v technologii rozlišovacích čipů (DArT) (Howard et al, 2011). Ale lepší pro identifi kaci a determinaci chmelových odrůd je využít DNA specifi cké sekvenční metody, jako již zmíněnou metodu STS pro strukturní geny (Patzak et al, 2007;Bassil et al, 2008;Castro et al, 2008;Venger et al, 2015).…”

Section: ■ 3 Genetické Metodyunclassified

Methods for verifying the authenticity of hops - an effective tool against falsification

Olšovská¹,

Krofta²,

Jandovská³

et al. 2016

Kvasny Prum

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■ 1 ÚVODAutenticita potravin je termín, který jednoduše označuje, zda potraviny nakupované spotřebitelem odpovídají jejich popisu, a je aktuálním tématem v nejrůznějších potravinářských komoditách. Proto je v současné době věnováno mnoho pozornosti a jsou vynakládány nemalé fi nanční prostředky na vývoj analytických metod pro ověřo-vání autenticity potravin, nápojů a jejich surovin.Také chmel je komodita, ve které dochází k falzifi kaci původu a odrůd, což může ve velké míře ovlivnit senzorický profi l piva z něho vyrobeného. Žatecký poloraný červeňák (ŽPČ) je na trhu všeobec-ně považován za světový standard kvality v kategorii aromatických chmelů. Prvotřídní kvalitě odpovídá i vyšší cena. V uplynulých letech bylo zaznamenáno několik opakovaných případů jeho falzifi kace. Falzifi kace Žateckého poloraného červeňáku ve formě granulí byla Recenzovaný článek / Reviewed Paper Olšovská, J., Krofta, K., Jandovská, V., Patzak, J., Štěrba, K., 2016: Metody pro ověřování autenticity chmele -účinný nástroj proti falzifi kaci. Kvasny Prum. 62, č. 10, s. 294-305 K pokusům o falzifi kaci dochází téměř u všech komodit a výjimkou není ani chmel. Je proto nezbytné hledat způsoby, jak ověřovat jeho autenticitu. Přehledový článek shrnuje moderní metody pro ověřování autenticity chmele a uvádí rovněž nejnovější výsledky spolupráce Výzkumného ústavu pivovarského a sladařského, a.s. a Chmelařského institutu, s.r.o., v Žatci. K ověřování autenticity chmele se používají metody chemotaxonomické a genetické. V roce 2015 byly provedeny chemické analýzy novošlechtěných hybridů pro České pivo (obsah a složení alfa a beta kyselin, obsah a složení chmelových silic, obsah celkových polyfenolů) a byly provedeny molekulárně-genetické analýzy 150 vybraných genotypů chmele ze světového sortimentu a šlechtitelského materiálu. Pomocí výsledků byl z testovaných genotypů sestaven přehledný dendrogram. Autoři se dále zabývali profi lováním českých odrůd chmele na základě chemických profi lů proanthokyanidinů a podařilo se jim pomocí klastrové analýzy jasně odlišit odrůdy chmele včetně jejich genetické příbuznosti.Olšovská, J., Krofta, K., Jandovská, V., Patzak, J., Štěrba, K., 2016: Methods for verifying the authenticity of hops -an effective tool against falsifi cation. Kvasny Prum. 62, No. 10, pp. 294-305Falsifi cation attempts occur in almost all commodities and hops is no exception. It is therefore necessary to look for ways to verify its authenticity. This review summarizes modern methods for verifying the authenticity of hops and also provides the latest results of the collaboration of the Research Institute of Brewing and Malting, PLC. and the Hop Research Institute, Ltd., in Žatec. Chemotaxonomic and genetic methods are used to verify the authenticity of hops. Chemical analyzes of newly bred hybrids potentially suitable for Czech beer focused on the content and composition of alpha and beta acids, content and composition of hop oils, and content of total polyphenols were performed and molecular genetic analyses of 150 selected hop genotypes in...

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High-throughput genotyping of hop (Humulus lupulus L.) utilising diversity arrays technology (DArT)

Cited by 31 publications

References 63 publications

Construction of integrated linkage map of a recombinant inbred line population of white lupin (<i>Lupinus albus</i> L.)

Construction of integrated linkage map of a recombinant inbred line population of white lupin (<i>Lupinus albus</i> L.)

Quantitative genetic parameters for yield, plant growth and cone chemical traits in hop (Humulus lupulus L.)

Methods for verifying the authenticity of hops - an effective tool against falsification

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