Faba bean,with its high protein yield and low nitrogen inputs,is a promising crop,but it suffers from low yield stability due to poor heat and drought adaptation.To improve yield performance,faba beans can be produced...Faba bean,with its high protein yield and low nitrogen inputs,is a promising crop,but it suffers from low yield stability due to poor heat and drought adaptation.To improve yield performance,faba beans can be produced as synthetic cultivars,where multiple lines are advanced through open pollination resulting in offsprings,which are a mixture of F_(1)-hybrids and self-pollinated offsprings.This leads to an enhanced performance due to per se performance of the components and heterotic effects of F_(1)-hybrids.While distinct genetic pools have shown high heterotic effects in hybrid breeding programs,they have not been systematically established in faba bean breeding.To promote establishment of heterotic pools,we employed a cost-effective chain-crossing scheme accompanied with only 58 genome-wide KASP-markers and generated diverse genetically distinct pools within one generation.However,artificial crossing methods in faba bean result in low crossing efficiency and seed set.To overcome this,we introduced bumblebee-assisted intercrossing in greenhouse chambers,achieving an increased seed set and further enhancing genetic distance between gene pools.Genotyping was conducted with an Illumina 10K SNP-chip,which enabled the identification of F_(1)×F_(1) double-cross combinations and F2 self-pollinated offsprings from open pollinated offsprings with a custom pipeline.In contrast to standard crossing and recombinant inbred line(RIL)production in faba bean,which results in small families with limited recombination,the chain-crossing scheme and within-pool open pollination allows us to rapidly generate large and diverse base populations for future breeding,genetic studies and with that to increase genetic gain in faba bean.展开更多
The common vetch(Vicia sativa L.)is a self-pollinated annual forage legume that is widely distributed worldwide.It has wide adaptability and high nutritional value and is commonly used as an important protein source f...The common vetch(Vicia sativa L.)is a self-pollinated annual forage legume that is widely distributed worldwide.It has wide adaptability and high nutritional value and is commonly used as an important protein source for livestock feed.However,pod shattering seriously limits the yield of common vetch.To clarify the mechanism of pod shattering in common vetch,the pod walls of three shattering-resistant(SR)accessions(B65,B135,and B392)and three shattering-susceptible(SS)accessions(L33,L170,and L461)were selected for transcriptome sequencing.A total of 17,190 differentially expressed genes(DEGs)were identified in the pod wall of B135 and L461 common vetch at 5,10,15,20,and 25 days after anthesis.Kyoto Encyclopedia of Genes and Genomes(KEGG)analysis showed that“phenylpropanoid biosynthesis”was the most significantly enriched pathway,and 40 structural genes associated with lignin biosynthesis were identified and differentially expressed in B135 and L461 common vetch.We analysed the DEGs in the pod wall of three SR and three SS accessions at 15 days after anthesis,and most of the DEGs were consistent with the significant enrichment pathways identified in B135 and L461 common vetch.The total lignin content of SR accessions was significantly lower than the SS accessions.The present study lays a foundation for understanding the molecular regulatory mechanism of pod shattering related to lignin biosynthesis in common vetch and provides reference functional genes for breeders to further cultivate shattering-resistant common vetch varieties.展开更多
Salinity stress is a major challenge for global agriculture,particularly in arid and semi-arid regions,limiting plant productivity due to water and soil salinity.These conditions particularly affect countries along th...Salinity stress is a major challenge for global agriculture,particularly in arid and semi-arid regions,limiting plant productivity due to water and soil salinity.These conditions particularly affect countries along the southern Mediterranean rim,including Algeria,which primarily focuses on pastoral and forage practices.This study investigates salinity tolerance and ecotypic variability in Vicia narbonensis L.,a fodder legume species recognized for its potential to reclaim marginal soils.Morphological,physiological,and biochemical responses were assessed in three ecotypes(eco2,eco9,and eco10)exposed to different salinity levels(low,moderate,and severe).The study was conducted using a completely randomized block design with three blocks per ecotype per dose.The results from the two-way analysis of variance demonstrate significant effects across nearly all attributes studied,revealing distinct ecotypic responses.These findings underscore variations in growth parameters,osmotic regulation mechanisms,and biochemical adjustments.The substantial diversity observed among these ecotypes in their response to salinity provides valuable insights for breeders addressing both agronomic and ecological challenges.Multivariate analyses,including Principal Component Analysis(PCA),revealed key variables distinguishing between ecotypes under salinity stress.Moreover,Classification based on Salinity Tolerance Indices(STI)further differentiated ecotypic performance with more precision,and this is because of the combination of the different parameters studied.These results open up new prospects for the development of strategies to improve the salinity tolerance of forage legumes.展开更多
Water channels or aquaporins are the main pathways of water transport. Both the existence and function of aquaporins in die guard cells of Vicia faba L. were investigated both by using RD28 cDNA and RD28 antibody as p...Water channels or aquaporins are the main pathways of water transport. Both the existence and function of aquaporins in die guard cells of Vicia faba L. were investigated both by using RD28 cDNA and RD28 antibody as probes, and by controlling stomatal movement as a parameter combined with antibody and inhibitor of aquaporins respectively. The results revealed that RD28 mRNA, encoding a plasma membrane aquaporin, expressed in ale mesophyll cells and vascular tissues of V. faba, especially in guard cells. And the location of RD28-like proteins was mainly on plasma membrane of guard cells. The addition of 25 mumol/L HgCl2, an aquaporin blocker, and antibody of RD28 as well, greatly suppressed the stomatal opening or guardcell protoplast swelling induced by fusicoccin and light, and closing induced by abscisic acid. However, 5 mmol/L, beta-mercaptoethanol, a reverse reagent of aquaporin blocker, reversed the inhibitory effect of HgCl2 Pretreatment oil stomatal opening ( i.e., HgCl2 was removed after HgCl2 pretreatment for 10 min). The results suggest that the aquaporins in V. faba are associated with stomatal movement.展开更多
Exogenous jasmonic acid (JA) has been showed to be able to induce stomatal closure in Vicia faba L. in previous investigations. The transport and distribution of 3H-JA affected by localized scorch on V. faba seedl...Exogenous jasmonic acid (JA) has been showed to be able to induce stomatal closure in Vicia faba L. in previous investigations. The transport and distribution of 3H-JA affected by localized scorch on V. faba seedling were studied with radioisotope technique. The results showed that 3H-JA could be transported up or down at the rate of 4-5 cm·min -1 following feeding into root or shoot tip. The transport of 3H-JA in shoot reached a relative stable rate at 30 min after being fed through root. Wounding by scorch in the youngest leaf caused an increase in the transport of 3H-JA from root to shoot and enhanced the distribution of 3H-JA in the wounded leaf. However, distribution of 3H-JA in unwounded leaves increased after 5 h being fed through the youngest leaf. It was noticed that wounding improved accumulation of 3H-JA in abaxial epidermis. Consistent results were obtained: wounding prevented transport of 3H-JA out from the youngest leaf to root; These observations suggest that JA plays an important role as a defense signal and might be involved in the regulation of the stomatal movement in response to wounding stress.展开更多
Through field observation and lab analysis, 13 agronomic traits, including plant height and effective branching number per plant, etc., of 207 faba bean (Vicia faba L.) germplasms saved in Crop Middle-term Genebank ...Through field observation and lab analysis, 13 agronomic traits, including plant height and effective branching number per plant, etc., of 207 faba bean (Vicia faba L.) germplasms saved in Crop Middle-term Genebank of Hubei Province were evaluated, moreover, the identification on the disease resistance and the quality was carried out on parts of germplasm resources. The results showed that the faba beangermplasm resources in Hubei Province were abundant, the variation range of agronomic traits like the growth period, plant height and 100-bean weight, etc., was great, and the range of choice was wide. In the aspect of quality, there were 9 germplasms withthe content of crude protein higher than 30%, and the variation range of amylose content in total starch was large, which provided excellent sources of parents for breedinq hi.qh-quality faba bean varieties in Hubei Province.展开更多
Acetylcholine (Ach) is a key component of animal cholinergic system. Recent experiments demonstrated that Ach, choline acetyltransferase, acetylcholinesterase and Ach receptors are present in all parts of plants and...Acetylcholine (Ach) is a key component of animal cholinergic system. Recent experiments demonstrated that Ach, choline acetyltransferase, acetylcholinesterase and Ach receptors are present in all parts of plants and have many functions, including inducing stomatal movement. The authors' previous work has evidenced that microtubules and microfilaments are involved in regulating both stomatal closing and opening. The present investigation is to determine whether stomatal opening induced by Ach is associated with microtubules and microfilaments. The results showed that Ach could induce stomatal opening of Vicia faba L. with or without addition of KCl in the dark. Ach also stimulated protoplast swelling in a K +_free solution in the dark. However, the induction was partially suppressed when the strips and protoplasts were pretreated with either cytochalasin B, an inhibitor of F_actin polymerization, or oryzalin, an inhibitor of plant microtubule polymerization. Thus, our data suggest for the first time that stomatal opening induced by Ach is associated with the dynamics of microtubules and microfilaments.展开更多
基金funded by grant 469336000 to Rod J.Snowdon from the German Research Society(DFG)for the International Research Training Group 2843“Accelerating crop Genetic Gain”.
文摘Faba bean,with its high protein yield and low nitrogen inputs,is a promising crop,but it suffers from low yield stability due to poor heat and drought adaptation.To improve yield performance,faba beans can be produced as synthetic cultivars,where multiple lines are advanced through open pollination resulting in offsprings,which are a mixture of F_(1)-hybrids and self-pollinated offsprings.This leads to an enhanced performance due to per se performance of the components and heterotic effects of F_(1)-hybrids.While distinct genetic pools have shown high heterotic effects in hybrid breeding programs,they have not been systematically established in faba bean breeding.To promote establishment of heterotic pools,we employed a cost-effective chain-crossing scheme accompanied with only 58 genome-wide KASP-markers and generated diverse genetically distinct pools within one generation.However,artificial crossing methods in faba bean result in low crossing efficiency and seed set.To overcome this,we introduced bumblebee-assisted intercrossing in greenhouse chambers,achieving an increased seed set and further enhancing genetic distance between gene pools.Genotyping was conducted with an Illumina 10K SNP-chip,which enabled the identification of F_(1)×F_(1) double-cross combinations and F2 self-pollinated offsprings from open pollinated offsprings with a custom pipeline.In contrast to standard crossing and recombinant inbred line(RIL)production in faba bean,which results in small families with limited recombination,the chain-crossing scheme and within-pool open pollination allows us to rapidly generate large and diverse base populations for future breeding,genetic studies and with that to increase genetic gain in faba bean.
基金supported by the Leading Scientist Project of Qinghai Province,China(2023-NK-147)。
文摘The common vetch(Vicia sativa L.)is a self-pollinated annual forage legume that is widely distributed worldwide.It has wide adaptability and high nutritional value and is commonly used as an important protein source for livestock feed.However,pod shattering seriously limits the yield of common vetch.To clarify the mechanism of pod shattering in common vetch,the pod walls of three shattering-resistant(SR)accessions(B65,B135,and B392)and three shattering-susceptible(SS)accessions(L33,L170,and L461)were selected for transcriptome sequencing.A total of 17,190 differentially expressed genes(DEGs)were identified in the pod wall of B135 and L461 common vetch at 5,10,15,20,and 25 days after anthesis.Kyoto Encyclopedia of Genes and Genomes(KEGG)analysis showed that“phenylpropanoid biosynthesis”was the most significantly enriched pathway,and 40 structural genes associated with lignin biosynthesis were identified and differentially expressed in B135 and L461 common vetch.We analysed the DEGs in the pod wall of three SR and three SS accessions at 15 days after anthesis,and most of the DEGs were consistent with the significant enrichment pathways identified in B135 and L461 common vetch.The total lignin content of SR accessions was significantly lower than the SS accessions.The present study lays a foundation for understanding the molecular regulatory mechanism of pod shattering related to lignin biosynthesis in common vetch and provides reference functional genes for breeders to further cultivate shattering-resistant common vetch varieties.
基金Direction Generale de la Recherche Scientifique et du Developpement Technologique(DGRSDT)Algeria,and the Researchers Supporting Project No.(RSP2025R390),King Saud University,Riyadh,Saudi Arabia.
文摘Salinity stress is a major challenge for global agriculture,particularly in arid and semi-arid regions,limiting plant productivity due to water and soil salinity.These conditions particularly affect countries along the southern Mediterranean rim,including Algeria,which primarily focuses on pastoral and forage practices.This study investigates salinity tolerance and ecotypic variability in Vicia narbonensis L.,a fodder legume species recognized for its potential to reclaim marginal soils.Morphological,physiological,and biochemical responses were assessed in three ecotypes(eco2,eco9,and eco10)exposed to different salinity levels(low,moderate,and severe).The study was conducted using a completely randomized block design with three blocks per ecotype per dose.The results from the two-way analysis of variance demonstrate significant effects across nearly all attributes studied,revealing distinct ecotypic responses.These findings underscore variations in growth parameters,osmotic regulation mechanisms,and biochemical adjustments.The substantial diversity observed among these ecotypes in their response to salinity provides valuable insights for breeders addressing both agronomic and ecological challenges.Multivariate analyses,including Principal Component Analysis(PCA),revealed key variables distinguishing between ecotypes under salinity stress.Moreover,Classification based on Salinity Tolerance Indices(STI)further differentiated ecotypic performance with more precision,and this is because of the combination of the different parameters studied.These results open up new prospects for the development of strategies to improve the salinity tolerance of forage legumes.
文摘Water channels or aquaporins are the main pathways of water transport. Both the existence and function of aquaporins in die guard cells of Vicia faba L. were investigated both by using RD28 cDNA and RD28 antibody as probes, and by controlling stomatal movement as a parameter combined with antibody and inhibitor of aquaporins respectively. The results revealed that RD28 mRNA, encoding a plasma membrane aquaporin, expressed in ale mesophyll cells and vascular tissues of V. faba, especially in guard cells. And the location of RD28-like proteins was mainly on plasma membrane of guard cells. The addition of 25 mumol/L HgCl2, an aquaporin blocker, and antibody of RD28 as well, greatly suppressed the stomatal opening or guardcell protoplast swelling induced by fusicoccin and light, and closing induced by abscisic acid. However, 5 mmol/L, beta-mercaptoethanol, a reverse reagent of aquaporin blocker, reversed the inhibitory effect of HgCl2 Pretreatment oil stomatal opening ( i.e., HgCl2 was removed after HgCl2 pretreatment for 10 min). The results suggest that the aquaporins in V. faba are associated with stomatal movement.
文摘Exogenous jasmonic acid (JA) has been showed to be able to induce stomatal closure in Vicia faba L. in previous investigations. The transport and distribution of 3H-JA affected by localized scorch on V. faba seedling were studied with radioisotope technique. The results showed that 3H-JA could be transported up or down at the rate of 4-5 cm·min -1 following feeding into root or shoot tip. The transport of 3H-JA in shoot reached a relative stable rate at 30 min after being fed through root. Wounding by scorch in the youngest leaf caused an increase in the transport of 3H-JA from root to shoot and enhanced the distribution of 3H-JA in the wounded leaf. However, distribution of 3H-JA in unwounded leaves increased after 5 h being fed through the youngest leaf. It was noticed that wounding improved accumulation of 3H-JA in abaxial epidermis. Consistent results were obtained: wounding prevented transport of 3H-JA out from the youngest leaf to root; These observations suggest that JA plays an important role as a defense signal and might be involved in the regulation of the stomatal movement in response to wounding stress.
文摘Through field observation and lab analysis, 13 agronomic traits, including plant height and effective branching number per plant, etc., of 207 faba bean (Vicia faba L.) germplasms saved in Crop Middle-term Genebank of Hubei Province were evaluated, moreover, the identification on the disease resistance and the quality was carried out on parts of germplasm resources. The results showed that the faba beangermplasm resources in Hubei Province were abundant, the variation range of agronomic traits like the growth period, plant height and 100-bean weight, etc., was great, and the range of choice was wide. In the aspect of quality, there were 9 germplasms withthe content of crude protein higher than 30%, and the variation range of amylose content in total starch was large, which provided excellent sources of parents for breedinq hi.qh-quality faba bean varieties in Hubei Province.
文摘Acetylcholine (Ach) is a key component of animal cholinergic system. Recent experiments demonstrated that Ach, choline acetyltransferase, acetylcholinesterase and Ach receptors are present in all parts of plants and have many functions, including inducing stomatal movement. The authors' previous work has evidenced that microtubules and microfilaments are involved in regulating both stomatal closing and opening. The present investigation is to determine whether stomatal opening induced by Ach is associated with microtubules and microfilaments. The results showed that Ach could induce stomatal opening of Vicia faba L. with or without addition of KCl in the dark. Ach also stimulated protoplast swelling in a K +_free solution in the dark. However, the induction was partially suppressed when the strips and protoplasts were pretreated with either cytochalasin B, an inhibitor of F_actin polymerization, or oryzalin, an inhibitor of plant microtubule polymerization. Thus, our data suggest for the first time that stomatal opening induced by Ach is associated with the dynamics of microtubules and microfilaments.
