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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1783 1
1889 1
1890 1
1945 1
1946 1
1947 11
1948 3
1949 2
1950 4
1951 5
1952 2
1953 2
1954 1
1959 1
1960 2
1961 1
1962 1
1963 2
1964 3
1966 1
1967 1
1968 1
1969 5
1971 5
1972 5
1973 2
1974 2
1975 1
1976 2
1977 2
1978 3
1979 4
1980 5
1981 5
1982 5
1983 3
1984 3
1985 4
1986 3
1987 8
1988 9
1989 6
1990 16
1991 12
1992 11
1993 18
1994 21
1995 8
1996 13
1997 16
1998 13
1999 22
2000 19
2001 31
2002 56
2003 63
2004 68
2005 101
2006 133
2007 142
2008 155
2009 138
2010 182
2011 221
2012 267
2013 301
2014 327
2015 313
2016 335
2017 362
2018 347
2019 374
2020 402
2021 446
2022 457
2023 406
2024 170

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5,232 results

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Page 1
Reconstruction of karyotypic evolution in Saccharum spontaneum species by comparative oligo-FISH mapping.
Meng Z, Wang F, Xie Q, Li R, Shen H, Li H. Meng Z, et al. BMC Plant Biol. 2022 Dec 20;22(1):599. doi: 10.1186/s12870-022-04008-7. BMC Plant Biol. 2022. PMID: 36539690 Free PMC article.
BACKGROUND: Karyotype dynamics driven by chromosomal rearrangements has long been considered as a fundamental question in the evolutionary genetics. Saccharum spontaneum, the most primitive and complex species in the genus Saccharum, has reportedly undergone …
BACKGROUND: Karyotype dynamics driven by chromosomal rearrangements has long been considered as a fundamental question in the evolutionary g …
Allele-defined genome of the autopolyploid sugarcane Saccharum spontaneum L.
Zhang J, Zhang X, Tang H, Zhang Q, Hua X, Ma X, Zhu F, Jones T, Zhu X, Bowers J, Wai CM, Zheng C, Shi Y, Chen S, Xu X, Yue J, Nelson DR, Huang L, Li Z, Xu H, Zhou D, Wang Y, Hu W, Lin J, Deng Y, Pandey N, Mancini M, Zerpa D, Nguyen JK, Wang L, Yu L, Xin Y, Ge L, Arro J, Han JO, Chakrabarty S, Pushko M, Zhang W, Ma Y, Ma P, Lv M, Chen F, Zheng G, Xu J, Yang Z, Deng F, Chen X, Liao Z, Zhang X, Lin Z, Lin H, Yan H, Kuang Z, Zhong W, Liang P, Wang G, Yuan Y, Shi J, Hou J, Lin J, Jin J, Cao P, Shen Q, Jiang Q, Zhou P, Ma Y, Zhang X, Xu R, Liu J, Zhou Y, Jia H, Ma Q, Qi R, Zhang Z, Fang J, Fang H, Song J, Wang M, Dong G, Wang G, Chen Z, Ma T, Liu H, Dhungana SR, Huss SE, Yang X, Sharma A, Trujillo JH, Martinez MC, Hudson M, Riascos JJ, Schuler M, Chen LQ, Braun DM, Li L, Yu Q, Wang J, Wang K, Schatz MC, Heckerman D, Van Sluys MA, Souza GM, Moore PH, Sankoff D, VanBuren R, Paterson AH, Nagai C, Ming R. Zhang J, et al. Nat Genet. 2018 Nov;50(11):1565-1573. doi: 10.1038/s41588-018-0237-2. Epub 2018 Oct 8. Nat Genet. 2018. PMID: 30297971
Modern sugarcanes are polyploid interspecific hybrids, combining high sugar content from Saccharum officinarum with hardiness, disease resistance and ratooning of Saccharum spontaneum. ...Introgressed S. spontaneum chromosomes in modern sugarcanes are …
Modern sugarcanes are polyploid interspecific hybrids, combining high sugar content from Saccharum officinarum with hardiness, diseas …
Saccharum spontaneum, a Novel Source of Resistance to Root-Lesion and Root-Knot Nematodes in Sugarcane.
Bhuiyan SA, Garlick K, Piperidis G. Bhuiyan SA, et al. Plant Dis. 2019 Sep;103(9):2288-2294. doi: 10.1094/PDIS-02-19-0385-RE. Epub 2019 Jul 8. Plant Dis. 2019. PMID: 31287776
S. spontaneum lines were tested twice for resistance to root-lesion nematode and three times for root-knot nematode. ...This study showed that S. spontaneum lines possessed resistance for root-lesion and root-knot nematodes. ...
S. spontaneum lines were tested twice for resistance to root-lesion nematode and three times for root-knot nematode. ...This study sh …
Transcriptome dynamics provides insights into divergences of the photosynthesis pathway between Saccharum officinarum and Saccharum spontaneum.
Jiang Q, Hua X, Shi H, Liu J, Yuan Y, Li Z, Li S, Zhou M, Yin C, Dou M, Qi N, Wang Y, Zhang M, Ming R, Tang H, Zhang J. Jiang Q, et al. Plant J. 2023 Mar;113(6):1278-1294. doi: 10.1111/tpj.16110. Epub 2023 Feb 4. Plant J. 2023. PMID: 36648196 Free article.
Saccharum spontaneum and Saccharum officinarum contributed to the genetic background of modern sugarcane cultivars. Saccharum spontaneum has shown a higher net photosynthetic rate and lower soluble sugar than S. officinarum. ...
Saccharum spontaneum and Saccharum officinarum contributed to the genetic background of modern sugarcane cultivars.
Genomic insights into the recent chromosome reduction of autopolyploid sugarcane Saccharum spontaneum.
Zhang Q, Qi Y, Pan H, Tang H, Wang G, Hua X, Wang Y, Lin L, Li Z, Li Y, Yu F, Yu Z, Huang Y, Wang T, Ma P, Dou M, Sun Z, Wang Y, Wang H, Zhang X, Yao W, Wang Y, Liu X, Wang M, Wang J, Deng Z, Xu J, Yang Q, Liu Z, Chen B, Zhang M, Ming R, Zhang J. Zhang Q, et al. Nat Genet. 2022 Jun;54(6):885-896. doi: 10.1038/s41588-022-01084-1. Epub 2022 Jun 2. Nat Genet. 2022. PMID: 35654976
Saccharum spontaneum is a founding Saccharum species and exhibits wide variation in ploidy levels. ...One paleo-duplicated chromosomal pair in Saccharum, NpChr5 and NpChr8, underwent fission followed by fusion accompanied by centromeric split around 0.
Saccharum spontaneum is a founding Saccharum species and exhibits wide variation in ploidy levels. ...One paleo-duplica
Evolutionary expansion and functional divergence of sugar transporters in Saccharum (S. spontaneum and S. officinarum).
Zhang Q, Hua X, Liu H, Yuan Y, Shi Y, Wang Z, Zhang M, Ming R, Zhang J. Zhang Q, et al. Plant J. 2021 Feb;105(4):884-906. doi: 10.1111/tpj.15076. Epub 2020 Dec 8. Plant J. 2021. PMID: 33179305 Free article.
The sugar transporter (ST) family is considered to be the most important gene family for sugar accumulation, but limited information about the ST family in the important sugar-yielding crop Saccharum is available due to its complex genetic background. Here, 105 ST genes we …
The sugar transporter (ST) family is considered to be the most important gene family for sugar accumulation, but limited information about t …
The subgenome Saccharum spontaneum contributes to sugar accumulation in sugarcane as revealed by full-length transcriptomic analysis.
Zhao J, Li S, Xu Y, Ahmad N, Kuang B, Feng M, Wei N, Yang X. Zhao J, et al. J Adv Res. 2023 Dec;54:1-13. doi: 10.1016/j.jare.2023.02.001. Epub 2023 Feb 11. J Adv Res. 2023. PMID: 36781019 Free PMC article.
INTRODUCTION: Modern sugarcane cultivars (Saccharum spp. hybrids) derived from crosses between S. officinarum and S. spontaneum, with high-sugar traits and excellent stress tolerance inherited respectively. However, the contribution of the S. spontaneum subge …
INTRODUCTION: Modern sugarcane cultivars (Saccharum spp. hybrids) derived from crosses between S. officinarum and S. spontaneum
Genome-wide identification and expression profiling of DREB genes in Saccharum spontaneum.
Li Z, Wang G, Liu X, Wang Z, Zhang M, Zhang J. Li Z, et al. BMC Genomics. 2021 Jun 17;22(1):456. doi: 10.1186/s12864-021-07799-5. BMC Genomics. 2021. PMID: 34139993 Free PMC article.
BACKGROUND: The dehydration-responsive element-binding proteins (DREBs) are important transcription factors that interact with a DRE/CRT (C-repeat) sequence and involve in response to multiple abiotic stresses in plants. Modern sugarcane are hybrids from the cross between Sacc
BACKGROUND: The dehydration-responsive element-binding proteins (DREBs) are important transcription factors that interact with a DRE/CRT (C- …
Comparative analysis of sucrose phosphate synthase (SPS) gene family between Saccharum officinarum and Saccharum spontaneum.
Ma P, Zhang X, Chen L, Zhao Q, Zhang Q, Hua X, Wang Z, Tang H, Yu Q, Zhang M, Ming R, Zhang J. Ma P, et al. BMC Plant Biol. 2020 Sep 14;20(1):422. doi: 10.1186/s12870-020-02599-7. BMC Plant Biol. 2020. PMID: 32928111 Free PMC article.
Modern sugarcane cultivar is derived from the hybridization between the high sugar content species Saccharum officinarum and the high stress tolerance species Saccharum spontaneum, generating one of the most complex genomes among all crops. ...The recently du …
Modern sugarcane cultivar is derived from the hybridization between the high sugar content species Saccharum officinarum and the high …
Chemo-enzymatic approaches for consolidated bioconversion of Saccharum spontaneum biomass to ethanol-biofuel.
Vaid S, Sharma S, Bajaj BK. Vaid S, et al. Bioresour Technol. 2021 Jun;329:124898. doi: 10.1016/j.biortech.2021.124898. Epub 2021 Feb 27. Bioresour Technol. 2021. PMID: 33691204
A novel strategy involving sodium dodecylsulfate (SDS) (SDS assisted tris (2-hydroxyethyl) methyl- ammonium methyl sulphate ([TMA][MeSO(4)], ionic liquid) pretreatment of Saccharum spontaneum biomass (SSB) following its enzymatic saccharification, and conversion int …
A novel strategy involving sodium dodecylsulfate (SDS) (SDS assisted tris (2-hydroxyethyl) methyl- ammonium methyl sulphate ([TMA][MeSO(4)], …
5,232 results