Morphological analysis and stage determination of anther development in Sorghum [Sorghum bicolor (L.) Moench]

Laza, Haydee; Kaur-Kapoor, Harsimran; Xin, Zhuanguo; Payton, Paxton; Chen, Junping

doi:10.1007/s00425-022-03853-y

Cited by 5 publications

(6 citation statements)

References 29 publications

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“…To investigate what caused pollen sterility under short-term heat stress conditions, we conducted semithin section analysis to examine anther development. In late-stage anthers under normal conditions, we observed uniformly spherical developing pollen grains and a thin layer of heavily stained tapetal cells at stage 10 (Figure 6f; Laza et al, 2022); mature pollen grains formed by stage 13 (Figure 6h). However, the 3-day heat-stressed stage-10 anther exhibited lightly stained hypertrophic tapetal cells (Figure 6g), indicating abnormal differentiation or degeneration in the tapetal cells.…”

Section: Short-term Heat Stress At the Booting Stage Abolishes Male F...mentioning

confidence: 92%

“…Sorghum has a similar anther structure to that of maize. Both sorghum and maize anthers comprise four lobes (microsporangia); within each lobe, the central pollen mother cells (PMC) are surrounded by four layers of somatic cells, i.e., the epidermis, endothecium, middle layer, and tapetum (Cheng et al, 1979; Christensen et al, 1972; Laza et al, 2022). Proper development of anther is critical for the production of viable pollen and consequently seeds in sorghum.…”

Section: Introductionmentioning

confidence: 99%

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The effects of heat stress on male reproduction and tillering in Sorghum bicolor

Smith,

Gentile,

Xin

et al. 2023

Food and Energy Security

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Due to global climate change, heat stress is increasingly harming the growth, development, overall biomass, and grain yield of numerous crops. Heat stress impairs pollen development and thus reduces seed set in Sorghum bicolor (L.) Moench; however, the effects of heat stress on anther development at specific stages and tiller formation remain incompletely understood. Here we report that exposure to heat stress [42°C/32°C (day/night)] at pollen mother cell (PMC) and booting stages profoundly disrupts tapetum and pollen development, resulting in a significant decrease in grain yield in sorghum. Sorghum plants subjected to 9 days or less of heat stress at the PMC stage exhibited normal pollen viability, but 12 days of heat stress caused almost complete loss of grain yield and the formation of nonviable pollen grains. Similarly, sorghum plants that were heat‐stressed for 3 days at the booting stage produced few seeds. Further analysis revealed that aberrant tapetum and pollen development contributed to the sterility of pollen in these heat‐stressed plants. Notably, in addition to inhibiting plant height, a 12‐day heat stress at the PMC stage promoted the formation of basal tillers, whereas a 3‐day heat stress at the booting stage stimulated the formation of apical tillers, which helped salvage seed yield under heat stress conditions. Moreover, the application of exogenous auxin promoted the formation of apical tillers and leaf numbers per apical tiller. Collectively, our findings suggest that sorghum is susceptible to heat stress during both early and late anther development, and auxin might be involved in governing the formation of apical tillers.

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Section: Short-term Heat Stress At the Booting Stage Abolishes Male F...mentioning

confidence: 92%

Section: Introductionmentioning

confidence: 99%

The effects of heat stress on male reproduction and tillering in Sorghum bicolor

Smith,

Gentile,

Xin

et al. 2023

Food and Energy Security

View full text Add to dashboard Cite

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“…The members of the same subfamily always have similar functions. In flowering plants, the anther is a reproductive organ that is composed of meiocytes and four cell layers: the epidermis, endothecium, middle layer, and tapetum [ 66 ]. The rice bHLH transcription factor in subfamily II, TDR Interacting Protein 2 (TIP2), plays an important role in the formation of the middle layer and tapetum during early anther development through the regulation of Tapetum Degeneration Retardation (TDR) and Eternal Tapetum 1 (EAT1).…”

Section: The Bhlh Transcription Factor Family In Plantsmentioning

confidence: 99%

Basic Helix-Loop-Helix Transcription Factors: Regulators for Plant Growth Development and Abiotic Stress Responses

Zuo

Lee

Kang

2023

IJMS

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Plant basic helix-loop-helix (bHLH) transcription factors are involved in many physiological processes, and they play important roles in the abiotic stress responses. The literature related to genome sequences has increased, with genome-wide studies on the bHLH transcription factors in plants. Researchers have detailed the functionally characterized bHLH transcription factors from different aspects in the model plant Arabidopsis thaliana, such as iron homeostasis and abiotic stresses; however, other important economic crops, such as rice, have not been summarized and highlighted. The bHLH members in the same subfamily have similar functions; therefore, unraveling their regulatory mechanisms will help us to identify and understand the roles of some of the unknown bHLH transcription factors in the same subfamily. In this review, we summarize the available knowledge on functionally characterized bHLH transcription factors according to four categories: plant growth and development; metabolism synthesis; plant signaling, and abiotic stress responses. We also highlight the roles of the bHLH transcription factors in some economic crops, especially in rice, and discuss future research directions for possible genetic applications in crop breeding.

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“…It is challenging to determine when and where the sorghum domestication occurred. However, it is assumed that it occurred in Northeastern Africa (Morris et al, 2013) under hot and dry field conditions (Jain et al, 2010;Laza et al, 2022). Sorghum has been well adapted to drought and high-temperature environments where the growth of other cereals crop may be challenged.…”

Section: Cold Tolerance: a Rare Trait In Sorghummentioning

confidence: 99%

“…Sorghum is a cold-sensitive crop, but some varieties are cold tolerant (Leon-Velasco et al, 2009;Mansour et al, 2021). Adverse effects in sorghum such as reduction in germination, plant growth, and development are evident by cold stress (Ercoli et al, 2004;Chinnusamy et al, 2007;Janmohammadi et al, 2015;Ortiz et al, 2017;Laza et al, 2022). Integration of signal perception and transduction, gene expression, and molecules produced in response to cold stress is essential to understand sorghum tolerance and acclimatization (Mehrotra et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Responses of sorghum to cold stress: A review focused on molecular breeding

2023

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Climate change has led to the search for strategies to acclimatize plants to various abiotic stressors to ensure the production and quality of crops of commercial interest. Sorghum is the fifth most important cereal crop, providing several uses including human food, animal feed, bioenergy, or industrial applications. The crop has an excellent adaptation potential to different types of abiotic stresses, such as drought, high salinity, and high temperatures. However, it is susceptible to low temperatures compared with other monocotyledonous species. Here, we have reviewed and discussed some of the research results and advances that focused on the physiological, metabolic, and molecular mechanisms that determine sorghum cold tolerance to improve our understanding of the nature of such trait. Questions and opportunities for a comprehensive approach to clarify sorghum cold tolerance or susceptibility are also discussed.

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Morphological analysis and stage determination of anther development in Sorghum [Sorghum bicolor (L.) Moench]

Cited by 5 publications

References 29 publications

The effects of heat stress on male reproduction and tillering in Sorghum bicolor

The effects of heat stress on male reproduction and tillering in Sorghum bicolor

Basic Helix-Loop-Helix Transcription Factors: Regulators for Plant Growth Development and Abiotic Stress Responses

Responses of sorghum to cold stress: A review focused on molecular breeding

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