Effect of source germplasm and season on the in vivo haploid induction rate in tropical maize

Doubled haploid technology is widely applied in maize. The haploid inducer lines play critical roles in doubled haploid breeding. We report the development of specialized haploid inducer lines that enhance the purple pigmentation of crossing immature embryos. During the development of haploid inducer lines, two breeding populations derived from the CAU3/S23 and CAU5/S23 were used. Molecular marker-assisted selection for both qhir1 and qhir8 was used from BC1F1 to BC1F4. Evaluation of the candidate individuals in each generation was carried out by pollinating to the tester of ZD958. Individuals with fast and clear pigmentation of the crossing immature embryos, high number of haploids per ear, and high haploid induction rate were considered as candidates. Finally, three new haploid inducer lines (CS1, CS2, and CS3) were developed. The first two (CS1 and CS2) were from the CAU3/S23, with a haploid induction rate of 8.29%–13.25% and 11.54%–15.54%, respectively. Meanwhile, the CS3 was from the CAU5/S23. Its haploid induction rate was 8.14%–12.28%. In comparison with the donor haploid inducer lines, the 24-h purple embryo rates of the newly developed haploid inducer lines were improved by 10%–20%, with a ~90% accuracy for the identification of haploid immature embryos. These new haploid inducer lines will further improve the efficiency of doubled haploid breeding of maize.

Download Full-text

Mapping of maternal QTLs for in vivo haploid induction rate in maize (Zea mays L.)

Euphytica ◽

10.1007/s10681-013-1043-7 ◽

2013 ◽

Vol 196 (3) ◽

pp. 413-421 ◽

Cited By ~ 23

Author(s):

Penghao Wu ◽

Haochuan Li ◽

Jiaojiao Ren ◽

Shaojiang Chen

Keyword(s):

Zea Mays ◽

Zea Mays L ◽

Haploid Induction ◽

Haploid Induction Rate ◽

Induction Rate

Download Full-text

MYO, a Candidate Gene for Haploid Induction in Maize Causes Male Sterility

Plants ◽

10.3390/plants9060773 ◽

2020 ◽

Vol 9 (6) ◽

pp. 773

Author(s):

Kimberly Vanous ◽

Thomas Lübberstedt ◽

Rania Ibrahim ◽

Ursula K. Frei

Keyword(s):

Male Sterility ◽

Gene Isolation ◽

Haploid Induction ◽

Maize Breeding ◽

Breeding Programs ◽

Positional Candidate ◽

Haploid Induction Rate ◽

Induction Rate ◽

Transgenic Lines ◽

Strong Candidate

Doubled haploid technology is highly successful in maize breeding programs and is contingent on the ability of maize inducers to efficiently produce haploids. Knowledge of the genes involved in haploid induction is important for not only developing better maize inducers, but also to create inducers in other crops. The main quantitative trait loci involved in maize haploid induction are qhir1 and qhir8. The gene underlying qhir1 has been discovered and validated by independent research groups. Prior to initiation of this study, the gene associated with qhir8 had yet to be recognized. Therefore, this research focused on characterizing positional candidate genes underlying qhir8. Pursuing this goal, a strong candidate for qhir8, GRMZM2G435294 (MYO), was silenced by RNAi. Analysis of crosses with these heterozygous RNAi-transgenic lines for haploid induction rate revealed that the silencing of MYO significantly enhanced haploid induction rate by an average of 0.6% in the presence of qhir1. Recently, GRMZM2G465053 (ZmDMP) was identified by map-based gene isolation and shown to be responsible for qhir8. While our results suggest that MYO may contribute to haploid induction rate, results were inconsistent and only showing minor increases in haploid induction rate compared to ZmDMP. Instead, reciprocal crosses clearly revealed that the silencing of MYO causes male sterility.

Download Full-text

Selection Gain of Maize Haploid Inducers for the Tropical Savanna Environments

Plants ◽

10.3390/plants10122812 ◽

2021 ◽

Vol 10 (12) ◽

pp. 2812

Author(s):

Abil Dermail ◽

Sompong Chankaew ◽

Kamol Lertrat ◽

Thomas Lübberstedt ◽

Khundej Suriharn

Keyword(s):

Genetic Gain ◽

Seed Set ◽

Agronomic Traits ◽

Phenotypic Diversity ◽

Hybrid Breeding ◽

Agronomic Performance ◽

Tropical Savanna ◽

Haploid Induction ◽

Haploid Induction Rate ◽

Induction Rate

Lacking elite haploid inducers performing high haploid induction rate (HIR) and agronomic performance is one of fundamental factors hindering the rapid adoption of doubled haploid technology in maize hybrid breeding, especially under tropical savanna climate. Breeding haploid inducers for specific agro-ecology, thus, is indispensable yet challenging. We used temperate inducer Stock6 as genetic source for haploid induction ability and eight tropical maize genotypes as principal donors for agronomic adaptation. Three cycles of modified ear-to-row with 5% intra-family selection were applied in a population set of 78 putative haploid inducer families emphasized on agronomic performance, R1-nj anthocyanin intensity, and inducer seed set. Genetic gains, variance components, and heritability on given traits were estimated. Hierarchical clustering based on five selection criteria was performed to investigate the phenotypic diversity of putative families. Cycle effect was predominant for all observed traits. Realized genetic gain was positive for HIR (0.40% per cycle) and inducer seed set (30.10% or 47.30 seeds per ear per cycle). In this study, we reported the first haploid inducers for regions under tropical savanna climate. Three inducer families, KHI-42, KHI-54, and KHI-64, were promising as they possessed HIR about 7.8% or 14 haploid seeds per tester ear and inducer seed rate about 95.0% or 208 inducer seeds per ear. The breeding method was effective for enhancing the seed set and the expression of R1-nj anthocyanin marker of inducers, yet it showed a low effectiveness to improve haploid induction rate. Introgression of temperate inducer Stock6 into tropical gene pool followed by phenotypic selections through modified ear-to-row selection on inducer seed set and R1-nj marker did not compromise the agronomic traits of tropical inducer families. Implications and further strategies for optimizing genetic gain on HIR are discussed.

Download Full-text

Doubled Haploids in Tropical Maize: I. Effects of Inducers and Source Germplasm on in vivo Haploid Induction Rates

Crop Science ◽

10.2135/cropsci2010.10.0568 ◽

2011 ◽

Vol 51 (4) ◽

pp. 1498-1506 ◽

Cited By ~ 54

Author(s):

Vanessa Prigge ◽

Ciro Sánchez ◽

Baldev S. Dhillon ◽

Wolfgang Schipprack ◽

José Luis Araus ◽

...

Keyword(s):

Doubled Haploids ◽

Tropical Maize ◽

Haploid Induction

Download Full-text

PL-4 (CIP596131.4): an Improved Potato Haploid Inducer

American Journal of Potato Research ◽

10.1007/s12230-021-09839-y ◽

2021 ◽

Author(s):

Benny Ordoñez ◽

Monica Santayana ◽

Mariela Aponte ◽

Isabelle M. Henry ◽

Luca Comai ◽

...

Keyword(s):

Genetic Background ◽

Potato Breeding ◽

Haploid Induction ◽

Breeding Lines ◽

International Potato ◽

Haploid Induction Rate ◽

Induction Rate ◽

Hybrid Seeds ◽

Efficient Screening ◽

Potato Genetics

AbstractDihaploid production from elite tetraploid cultivars is key to both traditional and novel breeding approaches that seek to simplify potato genetics. For this purpose, efficient and widely compatible haploid inducers (HIs) are needed. We compared PL-4, a new HI developed at the International Potato Center, to known HIs IvP101 and IvP35. By pollination of elite tetraploid breeding lines, we showed that PL-4 performed significantly better and had a homogeneous response regardless of the genetic background of the pistillate parents, on the most important efficiency traits—number of dihaploids per 100 fruits and haploid induction rate. Moreover, PL-4 exhibited a reduced proportion of hybrid seeds, a convenient trait for efficient screening. In this context, we recommend PL-4 as an enhanced HI for the potato breeding community.

Download Full-text

Genomic prediction of maternal haploid induction rate in maize

The Plant Genome ◽

10.1002/tpg2.20014 ◽

2020 ◽

Vol 13 (1) ◽

Cited By ~ 1

Author(s):

Vinícius Costa Almeida ◽

Henrique Uliana Trentin ◽

Ursula Karoline Frei ◽

Thomas Lübberstedt

Keyword(s):

Genomic Prediction ◽

Haploid Induction ◽

Haploid Induction Rate ◽

Induction Rate

Download Full-text

Doubled haploid production in maize under Sub-montane Himalayan conditions using R1-nj-based haploid inducer TAILP1

Indian Journal of Genetics and Plant Breeding (The) ◽

10.31742/ijgpb.80.3.4 ◽

2020 ◽

Vol 80 (03) ◽

Author(s):

R. K Khulbe ◽

A. Pattanayak ◽

Lakshmi Kant ◽

G. S. Bisht ◽

M. C. Pant ◽

...

Keyword(s):

Doubled Haploid ◽

Sweet Corn ◽

Haploid Induction ◽

Maize Breeding ◽

Line Production ◽

Haploid Inducer ◽

Breeding Programmes ◽

Source Populations ◽

Developmental Phases

The use of in vivo haploid induction system makes the doubled haploid (DH) technology easier to adopt for the conventional maize breeders. However, despite having played an important role in the initial developmental phases of DH technology, Indian maize research has yet to harvest its benefits. Haploid Inducer Lines (HILs) developed by CIMMYT are being widely used in maize breeding programmes in many countries including India. There, however, is no published information on the efficiency of DH line production using CIMMYT HILs in Indian maize breeding programmes. In the present study, the efficiency of DH production using CIMMYT’s tropically adapted inducer line TAILP1 was investigated with eight source populations including two of sweet corn. The average haploid induction rate (HIR) of TAILP1 was 5.48% with a range of 2.01 to 10.03%. Efficiency of DH production ranged from 0.14 to 1.87% for different source populations with an average of 1.07%. The information generated will be useful for maize breeders intending to use DH technology for accelerated development of completely homozygous lines.

Download Full-text

In Vivo Haploid Induction in Maize: Comparison of Different Testing Regimes for Measuring Haploid Induction Rates

Crop Science ◽

10.2135/cropsci2015.11.0668 ◽

2016 ◽

Vol 56 (3) ◽

pp. 1127-1135 ◽

Cited By ~ 10

Author(s):

Albrecht E. Melchinger ◽

Pedro Correa Brauner ◽

Juliane Böhm ◽

Wolfgang Schipprack

Keyword(s):

Haploid Induction

Download Full-text

Extension of thein vivohaploid induction system from maize to wheat

10.1101/609305 ◽

2019 ◽

Author(s):

Chenxu Liu ◽

Yu Zhong ◽

Xiaolong Qi ◽

Ming Chen ◽

Zongkai Liu ◽

...

Keyword(s):

Pollen Viability ◽

Haploid Induction ◽

Male Sterile ◽

Crop Breeding ◽

Crop Species ◽

Ploidy Levels ◽

New Approach ◽

Knock Out ◽

Haploid Production

AbstractDoubled haploid breeding technology has been one of the most important techniques for accelerating crop breeding. In compare toin vivohaploid induction in maize, which is efficient and background independent, wheat haploid production by interspecific hybridization pollinated with maize is influenced by genetic background and requires rescue of young embryos. Here, we analyzed the homologues of maize haploid induction geneMTL/ZmPLA1/NLDin several crop species systematically, the homologues are highly conserved in sorghum, millet and wheat etc. Since wheat is a very important polyploidy crop, as a proof of concept, we demonstrated that thein vivohaploid induction method could be extended from diploid maize to hexaploid wheat by knocking out the wheat homologues (TaPLAs). Result showed that double knock-out mutation could trigger wheat haploid induction at ~ 2%-3%, accompanied by 30% - 60% seed setting rate. The performance of haploid wheat individual showed shorter plant, narrower leaves and male sterile. Our results also revealed that knockout ofTaPLA-A andTaPLA-D do not affect pollen viability. This study not only confirmed the function of the induction gene and explored a new approach for haploid production in wheat, but also provided an example that thein vivohaploid induction could be applied in more crop species with different ploidy levels. Furthermore, by combining with gene editing, it would be a fast and powerful platform for traits improvement in polyploidy crops breeding.

Download Full-text