Commercial suitability and characterization of newly developed Erucastrum canariense (Can) sterile cytoplasm based cytoplasmic male sterile (CMS) lines in Indian cauliflower
The study presents the first to characterize novel Erucastrum canarianse Webb and Berthel (or Can ) sterile cytoplasm-based CMS lines in Indian cauliflower ( Brassica oleracea var. botrytis L.) and investigating their commercial suitability. Eleven Can -based CMS lines were examined for 12 agro-morp...
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| Published in | Scientific reports Vol. 14; no. 1; pp. 2346 - 21 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
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Nature Publishing Group UK
29.01.2024
Nature Publishing Group Nature Portfolio |
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| Abstract | The study presents the first to characterize novel
Erucastrum canarianse
Webb and Berthel (or
Can
) sterile cytoplasm-based CMS lines in Indian cauliflower (
Brassica oleracea
var.
botrytis
L.) and investigating their commercial suitability. Eleven
Can
-based CMS lines were examined for 12 agro-morphological and yield traits,18 floral traits, four seed yield traits together with three each of the
Ogura
(source: wild Japanese Radish) and
Tour
(Source:
Brassica tournefortii
) cytoplasms. All of the recorded floral and seed traits showed significant (
P
> 0.05) differences between the CMS lines of each group. Agro-morphological and yield traits in CMS lines and their maintainers, however, were non-significantly different. All the
Can-
and
Ogura-
based CMS lines showed flowering and appropriate seed formation by natural cross-pollination. Only two
Tour
cytoplasm-based CMS lines,
Tour
(DC-41-5) and
Tour
(DC-67), produced the smallest malformed flowers and stigma. The highest seed yield per plant in CMS lines was in
Ogu
(DC-98-4) and the lowest in
Tour
(DC-67). P14 and P15, two polymorphic mtDNA markers, were discovered for the
Can
CMS system for early detection. Five primers (ITS5a-ITS4, atpF-atpH, P16, rbeL and trnL), along with their maintainers, were sequenced and aligned to detect nucleotide changes including as additions and or deletions at different positions. The newly introduced
E
.
canariense
sterile cytoplasm-based CMS system in cauliflower is the subject of the first comprehensive report, which emphasises their potential as a further stable and reliable genetic mechanism for hybrid breeding. |
|---|---|
| AbstractList | The study presents the first to characterize novel
Erucastrum canarianse
Webb and Berthel (or
Can
) sterile cytoplasm-based CMS lines in Indian cauliflower (
Brassica oleracea
var.
botrytis
L.) and investigating their commercial suitability. Eleven
Can
-based CMS lines were examined for 12 agro-morphological and yield traits,18 floral traits, four seed yield traits together with three each of the
Ogura
(source: wild Japanese Radish) and
Tour
(Source:
Brassica tournefortii
) cytoplasms. All of the recorded floral and seed traits showed significant (
P
> 0.05) differences between the CMS lines of each group. Agro-morphological and yield traits in CMS lines and their maintainers, however, were non-significantly different. All the
Can-
and
Ogura-
based CMS lines showed flowering and appropriate seed formation by natural cross-pollination. Only two
Tour
cytoplasm-based CMS lines,
Tour
(DC-41-5) and
Tour
(DC-67), produced the smallest malformed flowers and stigma. The highest seed yield per plant in CMS lines was in
Ogu
(DC-98-4) and the lowest in
Tour
(DC-67). P14 and P15, two polymorphic mtDNA markers, were discovered for the
Can
CMS system for early detection. Five primers (ITS5a-ITS4, atpF-atpH, P16, rbeL and trnL), along with their maintainers, were sequenced and aligned to detect nucleotide changes including as additions and or deletions at different positions. The newly introduced
E
.
canariense
sterile cytoplasm-based CMS system in cauliflower is the subject of the first comprehensive report, which emphasises their potential as a further stable and reliable genetic mechanism for hybrid breeding. The study presents the first to characterize novel Erucastrum canarianse Webb and Berthel (or Can) sterile cytoplasm-based CMS lines in Indian cauliflower (Brassica oleracea var. botrytis L.) and investigating their commercial suitability. Eleven Can-based CMS lines were examined for 12 agro-morphological and yield traits,18 floral traits, four seed yield traits together with three each of the Ogura (source: wild Japanese Radish) and Tour (Source: Brassica tournefortii) cytoplasms. All of the recorded floral and seed traits showed significant (P > 0.05) differences between the CMS lines of each group. Agro-morphological and yield traits in CMS lines and their maintainers, however, were non-significantly different. All the Can- and Ogura-based CMS lines showed flowering and appropriate seed formation by natural cross-pollination. Only two Tour cytoplasm-based CMS lines, Tour (DC-41-5) and Tour (DC-67), produced the smallest malformed flowers and stigma. The highest seed yield per plant in CMS lines was in Ogu (DC-98-4) and the lowest in Tour (DC-67). P14 and P15, two polymorphic mtDNA markers, were discovered for the Can CMS system for early detection. Five primers (ITS5a-ITS4, atpF-atpH, P16, rbeL and trnL), along with their maintainers, were sequenced and aligned to detect nucleotide changes including as additions and or deletions at different positions. The newly introduced E. canariense sterile cytoplasm-based CMS system in cauliflower is the subject of the first comprehensive report, which emphasises their potential as a further stable and reliable genetic mechanism for hybrid breeding. The study presents the first to characterize novel Erucastrum canarianse Webb and Berthel (or Can) sterile cytoplasm-based CMS lines in Indian cauliflower (Brassica oleracea var. botrytis L.) and investigating their commercial suitability. Eleven Can-based CMS lines were examined for 12 agro-morphological and yield traits,18 floral traits, four seed yield traits together with three each of the Ogura (source: wild Japanese Radish) and Tour (Source: Brassica tournefortii) cytoplasms. All of the recorded floral and seed traits showed significant (P > 0.05) differences between the CMS lines of each group. Agro-morphological and yield traits in CMS lines and their maintainers, however, were non-significantly different. All the Can- and Ogura-based CMS lines showed flowering and appropriate seed formation by natural cross-pollination. Only two Tour cytoplasm-based CMS lines, Tour (DC-41-5) and Tour (DC-67), produced the smallest malformed flowers and stigma. The highest seed yield per plant in CMS lines was in Ogu (DC-98-4) and the lowest in Tour (DC-67). P14 and P15, two polymorphic mtDNA markers, were discovered for the Can CMS system for early detection. Five primers (ITS5a-ITS4, atpF-atpH, P16, rbeL and trnL), along with their maintainers, were sequenced and aligned to detect nucleotide changes including as additions and or deletions at different positions. The newly introduced E. canariense sterile cytoplasm-based CMS system in cauliflower is the subject of the first comprehensive report, which emphasises their potential as a further stable and reliable genetic mechanism for hybrid breeding.The study presents the first to characterize novel Erucastrum canarianse Webb and Berthel (or Can) sterile cytoplasm-based CMS lines in Indian cauliflower (Brassica oleracea var. botrytis L.) and investigating their commercial suitability. Eleven Can-based CMS lines were examined for 12 agro-morphological and yield traits,18 floral traits, four seed yield traits together with three each of the Ogura (source: wild Japanese Radish) and Tour (Source: Brassica tournefortii) cytoplasms. All of the recorded floral and seed traits showed significant (P > 0.05) differences between the CMS lines of each group. Agro-morphological and yield traits in CMS lines and their maintainers, however, were non-significantly different. All the Can- and Ogura-based CMS lines showed flowering and appropriate seed formation by natural cross-pollination. Only two Tour cytoplasm-based CMS lines, Tour (DC-41-5) and Tour (DC-67), produced the smallest malformed flowers and stigma. The highest seed yield per plant in CMS lines was in Ogu (DC-98-4) and the lowest in Tour (DC-67). P14 and P15, two polymorphic mtDNA markers, were discovered for the Can CMS system for early detection. Five primers (ITS5a-ITS4, atpF-atpH, P16, rbeL and trnL), along with their maintainers, were sequenced and aligned to detect nucleotide changes including as additions and or deletions at different positions. The newly introduced E. canariense sterile cytoplasm-based CMS system in cauliflower is the subject of the first comprehensive report, which emphasises their potential as a further stable and reliable genetic mechanism for hybrid breeding. Abstract The study presents the first to characterize novel Erucastrum canarianse Webb and Berthel (or Can) sterile cytoplasm-based CMS lines in Indian cauliflower (Brassica oleracea var. botrytis L.) and investigating their commercial suitability. Eleven Can-based CMS lines were examined for 12 agro-morphological and yield traits,18 floral traits, four seed yield traits together with three each of the Ogura (source: wild Japanese Radish) and Tour (Source: Brassica tournefortii) cytoplasms. All of the recorded floral and seed traits showed significant (P > 0.05) differences between the CMS lines of each group. Agro-morphological and yield traits in CMS lines and their maintainers, however, were non-significantly different. All the Can- and Ogura-based CMS lines showed flowering and appropriate seed formation by natural cross-pollination. Only two Tour cytoplasm-based CMS lines, Tour (DC-41-5) and Tour (DC-67), produced the smallest malformed flowers and stigma. The highest seed yield per plant in CMS lines was in Ogu (DC-98-4) and the lowest in Tour (DC-67). P14 and P15, two polymorphic mtDNA markers, were discovered for the Can CMS system for early detection. Five primers (ITS5a-ITS4, atpF-atpH, P16, rbeL and trnL), along with their maintainers, were sequenced and aligned to detect nucleotide changes including as additions and or deletions at different positions. The newly introduced E. canariense sterile cytoplasm-based CMS system in cauliflower is the subject of the first comprehensive report, which emphasises their potential as a further stable and reliable genetic mechanism for hybrid breeding. |
| ArticleNumber | 2346 |
| Author | Manjunath, K. S. Mangal, Manisha Singh, Naveen Sharma, Brij Bihari Rao, Mahesh Tomar, Bhoopal Singh Kalia, Pritam Singh, Shrawan Ray, Mrinmoy |
| Author_xml | – sequence: 1 givenname: K. S. surname: Manjunath fullname: Manjunath, K. S. organization: Division of Vegetable Science, ICAR-Indian Agricultural Research Institute – sequence: 2 givenname: Shrawan surname: Singh fullname: Singh, Shrawan email: singhshrawan@rediffmail.com organization: Division of Vegetable Science, ICAR-Indian Agricultural Research Institute – sequence: 3 givenname: Pritam surname: Kalia fullname: Kalia, Pritam organization: Division of Vegetable Science, ICAR-Indian Agricultural Research Institute – sequence: 4 givenname: Manisha surname: Mangal fullname: Mangal, Manisha organization: Division of Vegetable Science, ICAR-Indian Agricultural Research Institute – sequence: 5 givenname: Brij Bihari surname: Sharma fullname: Sharma, Brij Bihari organization: Division of Vegetable Science, ICAR-Indian Agricultural Research Institute – sequence: 6 givenname: Naveen surname: Singh fullname: Singh, Naveen organization: Division of Genetics, ICAR-Indian Agricultural Research Institute – sequence: 7 givenname: Mrinmoy surname: Ray fullname: Ray, Mrinmoy organization: ICAR-Indian Agricultural Statistical Research Institute – sequence: 8 givenname: Mahesh surname: Rao fullname: Rao, Mahesh organization: ICAR-National Institute of Plant Biotechnology – sequence: 9 givenname: Bhoopal Singh surname: Tomar fullname: Tomar, Bhoopal Singh organization: Division of Vegetable Science, ICAR-Indian Agricultural Research Institute |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38282114$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_3390_horticulturae10090896 crossref_primary_10_1016_j_scienta_2024_113774 |
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| Snippet | The study presents the first to characterize novel
Erucastrum canarianse
Webb and Berthel (or
Can
) sterile cytoplasm-based CMS lines in Indian cauliflower (... The study presents the first to characterize novel Erucastrum canarianse Webb and Berthel (or Can) sterile cytoplasm-based CMS lines in Indian cauliflower... Abstract The study presents the first to characterize novel Erucastrum canarianse Webb and Berthel (or Can) sterile cytoplasm-based CMS lines in Indian... |
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| SubjectTerms | 631/449/2491 631/449/711 Brassica - genetics Brassica oleracea botrytis Crop yield Cross-pollination Cytoplasm Cytoplasm - genetics Cytoplasmic male sterility Cytosol Erucastrum Flowering Humanities and Social Sciences Mitochondrial DNA Morphology multidisciplinary Phenotype Plant Breeding Plant Infertility - genetics Pollination Raphanus Science Science (multidisciplinary) Stigmas (botany) |
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| Title | Commercial suitability and characterization of newly developed Erucastrum canariense (Can) sterile cytoplasm based cytoplasmic male sterile (CMS) lines in Indian cauliflower |
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