IAPT/IOPB chromosome data 19

Gosavi, Kumar Vinod Chhotupuri; Gholave, Avinash R.; Janarthanam, M.K.; Yadav, Shrirang R.

doi:10.12705/645.34

Cited by 9 publications

(11 citation statements)

References 10 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Three types of matoa have the same number of chromosomes, 2n=22 (Figures 2-4). The number of matoa chromosomes observed in this study is different from the study conducted by Marhold (2015) which states number of chromosomes of P. pinnata is 2n=40. Several factors can affect the difference in the number of chromosomes in one species, one of which is that the diversity of matoa is still not widely studied so there are variations that have not yet been found.…”

Section: Chromosome Numbercontrasting

confidence: 96%

See 1 more Smart Citation

Karyotyping of green, yellow and red matoa (Pometia pinnata J.R.Forst. & G.Forst.) from Central Java, Indonesia

et al. 2023

View full text Add to dashboard Cite

Abstract. Yuniastuti E, Masailla APD, Nandariyah, Rahmah N. 2023. Karyotyping of green, yellow and red matoa (Pometia pinnata J.R.Forst. & G.Forst.) from Central Java, Indonesia. Biodiversitas 24: 40-46. Matoa (Pometia pinnata J.R.Forst. & G.Forst.) belongs to Sapindaceae family and is widely distributed naturally in Indonesia. However, research on matoa plants,especially for the genetic aspect is poorly reported. Genetic information, through chromosome analysis can be helpful in plant breeding programs. This study aimed to analyze karyotype of chromosomes green, yellow and red matoa collected from Central Java, Indonesia. Chromosome analysis in this study used the squash preparation method. This research was the first karyotyping of matoa using 3 types based on exocarp colors, namely green, yellow and red skin matoa. Each type of matoa was repeated 4 times. The results showed that three types of matoa skin colors have the same number of chromosomes, namely 2n=2x=22 with each chromosome size of green, yellow, and red matoa are 1.070±0.251 ?m, 1.025±0.281 ?m, 006±0.252 ?m, respectively and all of matoa have a metacentric chromosome’s form. The karyotype formula for each type of matoa is 2n=2x=22=11m.

show abstract

Section: Chromosome Numbercontrasting

confidence: 96%

“…However, research on genetic aspects of matoa, especially chromosome field is poorly reported. Marhold (2015) reported the number of matoa chromosomes was 2n=40. Based on previous research on the same species, there should be no change in genetic form, especially chromosome morphology.…”

Section: Introductionmentioning

confidence: 99%

Karyotyping of green, yellow and red matoa (Pometia pinnata J.R.Forst. & G.Forst.) from Central Java, Indonesia

et al. 2023

View full text Add to dashboard Cite

show abstract

“…Lastly, the issues in this group can also be associated with different ploidy levels among different species and among populations of the same species. For instance, F. valesiaca is diploid and hexaploid (Arndt, 2008 ; Probatova et al, 2008 ; Šmarda, 2008 ; Šmarda et al, 2005 ), while F. rupicola and F. pseudovina are hexaploids (Alexeev et al, 1988 ; Šmarda et al, 2005 ). Whereas, samples of a hybrid origin may have the same or different ploidy levels in comparison with parental species (Bednarska & Brazauskas, 2017 ).…”

Section: Discussionmentioning

confidence: 99%

First insight into the phylogeny of fine‐leaved Festuca in the Altai Mountain Country based on genome‐wide genotyping

Kriuchkova

Baiakhmetov

Nobis

et al. 2023

Ecology and Evolution

View full text Add to dashboard Cite

Festuca is one of the largest genera within the Poaceae family. Molecular phylogenies demonstrate that Festuca s.l. comprises two groups: broad‐ and fine‐leaved species. The latter is the species‐richest and taxonomically complicated group due to being paraphyletic. Here, we provide the first insight into the phylogeny of 17 fine‐leaved species of Altai fescues. Based on genome‐wide genotyping, the examined taxa were divided into three markedly differentiated clusters. The first cluster comprises species from the F. rubra complex, the second cluster includes the F. brachyphylla complex, and the third cluster contains taxa from the groups F. ovina , F. valesiaca , and F. kryloviana . Importantly, we detected a complex genetic pattern within the groups of F. valesiaca and F. kryloviana . Moreover, our findings underline a discrepancy between morphological and molecular data for some species distributed within the Altai Mountain Country. We suggest that in order to validate the current findings on the fine‐leaved fescues, additional comprehensive research including morphological, karyological, and molecular methods is required. Nonetheless, our work provides a baseline for further investigations on the genus and studies on the floral diversity of Asia.

show abstract

“…Our chromosome data confirms the three previous ones, made for plants from Hungary, Slovakia and Kabardino-Balkaria (Pimenov & al., 2002). Our chromosome data confirms six previous determinations, made for plants from North Caucasus and Georgia (Pimenov & al., 2002;Shner & al., 2008;Gagnidze & al., 2015). This is the second chromosome number report for this endemic Caucasian species spread in Dagestan and Azerbaijan, the previous one (2n = 22) was also published for the plants from Dagestan (Vasil'eva & al., 1981).…”

Section: Literature Citedmentioning

confidence: 99%

IAPT/IOPB chromosome data 25

Pankova

Zykova

2017

TAXON

View full text Add to dashboard Cite

All materials CHN; vouchers are deposited in NS; collector E.Yu. Zykova. The study was supported by the Russian Foundation for Basic Research (grant 16-04-01246 A to E. Zykova). ASTERACEAE Anthemis tinctoria L., 2n = 18; Russia, Altay Republic, Z35a, Z37. 2n = 27; Russia, Altay Republic, Z35b. Arctium lappa L., 2n = 36; Russia, Altay Republic, Z38. Arctium minus (Hill) Bernh., 2n = 36; Russia, Altay Republic, Z41; Russia, Novosibirskaya Oblast, Z43. Senecio vulgaris L., 2n = 40; Russia, Altay Republic, Z56, Z90; Russia, Altaiskii Krai, Z55. Sonchus asper (L.) Hill, 2n = 18; Russia, Altay Republic, Z65a. 2n = 32; Russia, Altay Republic, Z65b, Z64. Sonchus oleraceus L., 2n = 18; Russia, Altay Republic, Z67. 2n = 32; Russia, Altay Republic, Z68, Z66, Z77. Tragopogon dubius Scop., 2n = 12; Russia, Novosibirskaya Oblasť, Z134. Tragopogon orientalis L., 2n = 12; Russia, Novosibirskaya Oblasť, Z70. BRASSICACEAE Brassica juncea (L.) Czern., 2n = 36; Russia, Altay Republic, Z15, Z16. EUPHORBIACEAE Euphorbia humifusa Willd., 2n = 22; Russia, Altay Republic, Z159. PLUMBAGINACEAE Plumbagella micrantha (Ledeb.) Spach, 2n = 12; Russia, Altay Republic, Z160. PORTULACACEAE Portulaca oleracea L., 2n = 54; Russia, Altaiskii Krai, Z152.

show abstract

IAPT/IOPB chromosome data 19

Cited by 9 publications

References 10 publications

Karyotyping of green, yellow and red matoa (Pometia pinnata J.R.Forst. & G.Forst.) from Central Java, Indonesia

Karyotyping of green, yellow and red matoa (Pometia pinnata J.R.Forst. & G.Forst.) from Central Java, Indonesia

First insight into the phylogeny of fine‐leaved Festuca in the Altai Mountain Country based on genome‐wide genotyping

IAPT/IOPB chromosome data 25

Contact Info

Product

Resources

About