Citations Report:Cell and Developmental Biology

Journal of Cell and Developmental Biology : Citations & Metrics Report

Articles published in Journal of Cell and Developmental Biology have been cited by esteemed scholars and scientists all around the world. Journal of Cell and Developmental Biology has got h-index 6, which means every article in Journal of Cell and Developmental Biology has got 6 average citations.

Following are the list of articles that have cited the articles published in Journal of Cell and Developmental Biology.

	2023	2022	2021	2020	2019
Year wise published articles	0	30	10	73	23
Year wise citations received	1	30	10	73	23

Journal total citations count	79
Journal impact factor	0.85
Journal 5 years impact factor	0.41
Journal cite score	0.38
Journal h-index	6
Journal h-index since 2017	6

	BÃ¡rcena, C., & LÃ³pez-OtÃn, C. (2017). A fruitful liaison of ZSCAN10 and ROS on the road to rejuvenation. Nature cell biology, 19(9), 1012-1013.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Nikitina, T.V., & Lebedev, I.N. (2018). Regulation of karyotype stability in human induced pluripotent stem cells. Cytology , 60 (6), 403-416.
	View at Publisher \| View at Google Scholar \| View at Indexing
	de Lima Camillo, L. P., & Quinlan, R. B. (2021). A ride through the epigenetic landscape: aging reversal by reprogramming. GeroScience, 1-23.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Xia, Y., Zhu, K., Irianto, J., Andrechak, J. C., Dooling, L. J., Pfeifer, C. R., & Discher, D. E. (2018). Live cell monitoring for factors affecting genome variation. bioRxiv, 508150.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Kosanke, M., Osetek, K., Haase, A., Wiehlmann, L., Davenport, C., Schwarzer, A., ... & Martin, U. (2021). Reprogramming enriches for somatic cell clones with small-scale mutations in cancer-associated genes. Molecular Therapy.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Ogawa, S., Yamada, M., Nakamura, A., Sugawara, T., Nakamura, A., Miyajima, S., ... & Hamatani, T. (2019). Zscan5b Deficiency Impairs DNA Damage Response and Causes Chromosomal Aberrations during Mitosis. Stem cell reports, 12(6), 1366-1379.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Xia, Y. (2019). Nuclear Envelope Rupture And Genomic Instability In Cancer (Doctoral dissertation, University of Pennsylvania).
	View at Publisher \| View at Google Scholar \| View at Indexing
	Mehrjardi, N. Z., Molcanyi, M., Hatay, F. F., Timmer, M., Shahbazi, E., Ackermann, J. P., ... & Å ari?, T. (2020). Acquisition of chromosome 1q duplication in parental and genome?edited human?induced pluripotent stem cell?derived neural stem cells results in their higher proliferation rate in vitro and in vivo. Cell Proliferation, 53(10), e12892.
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	Nakhaei-Nejad, M., Trinity, L., Jabbari, H., Pasdar, M., & Jahroudi, N. (2021). In Silico Analysis to Explore Lineage-Independent and-Dependent Transcriptional Programs Associated with the Process of Endothelial and Neural Differentiation of Human Induced Pluripotent Stem Cells. Journal of Clinical Medicine, 10(18), 4161.
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	Nakhaei-Nejad, M., Trinity, L., Jabbari, H., Pasdar, M., & Jahroudi, N. (2021). In Silico Analysis to Explore Lineage-Independent and-Dependent Transcriptional Programs Associated with the Process of Endothelial and Neural Differentiation of Human Induced Pluripotent Stem Cells. Journal of Clinical Medicine, 10(18), 4161.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Kantor, B., & Chiba-Falek, O. (2021). Lentiviral vectors as the delivery vehicles for transduction into iPSCs: shortcomings and benefits. In Methods in iPSC Technology (pp. 79-100). Academic Press.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Carrero, D., & LÃ³pez-OtÃn, C. (2018). The Relevance of Induced Pluripotent Stem Cells for the Study of Physiological and Premature Aging. In Stem Cell Genetics for Biomedical Research (pp. 311-334). Springer, Cham.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Giallongo, S., Rehakova, D., Raffaele, M., Lo Re, O., Koutna, I., & Vinciguerra, M. (2021). Redox and Epigenetics in Human Pluripotent Stem Cells Differentiation. Antioxidants & redox signaling, 34(4), 335-349.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Nikitina, T. V., Kashevarova, A. A., & Lebedev, I. N. (2019). Chromosomal Instability and Karyotype Correction in Human Induced Pluripotent Stem Cells. Russian Journal of Genetics, 55(10), 1183-1195.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Ogawa, S., Yamada, M., Nakamura, A., Sugawara, T., & Nakamura, A. Shoko Miyajima, 2 Yuichirou Harada, 2 Reina Ooka, Ryuichiro Okawa, Jun Miyauchi, 3 Hideki Tsumura, 4 Yasunori Yoshimura, Kenji Miyado, 2 Hidenori Akutsu, 2 Mamoru Tanaka, Akihiro Umezawa, 2 and Toshio Hamatani.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Wang, J., Liu, C., Chen, Y., & Wang, W. (2021). Taiji-reprogram: a framework to uncover cell-type specific regulators and predict cellular reprogramming cocktails. NAR genomics and bioinformatics, 3(4), lqab100.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Skamagki, M., Zhang, C., Liu, Z., Li, H., Zhao, R., & Kim, K. (2020). Reprogramming of Pluripotency-Specific microRNA Signatures Is Not Essential to Generate Inducible Pluripotent Stem Cells. Cellular reprogramming, 22(1), 1-2.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Nikitina, T.V., Kashevarova, A.A., & Lebedev, I.N. (2019). Chromosomal instability and karyotype correction in induced pluripotent human stem cells. Genetics , 55 (10), 1122-1136.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Iavniuk, A. A., Shevtsova, N. L., & Gudkov, D. I. (2020). Disorders of the initial ontogenesis of seed progeny of the common reed (Phragmites australis) from water bodies within the Chernobyl Exclusion Zone. Journal of Environmental Radioactivity, 218, 106256.
	View at Publisher \| View at Google Scholar \| View at Indexing
	Kuswantoro, F., & Oktavia, G. A. E. (2019). Studi Tipe Perkecambahan Dan Pertumbuhan Anakan Pinanga arinasae Witono dan Euchresta horsfieldii (Lesch.) Benn. Untuk Mendukung Upaya Konservasinya. Buletin Kebun Raya, 22(2), 105-116.
	View at Publisher \| View at Google Scholar \| View at Indexing
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Journal of Cell and Developmental Biology

Journal of Cell and Developmental Biology : Citations & Metrics Report

BÃ¡rcena, C., & LÃ³pez-OtÃn, C. (2017). A fruitful liaison of ZSCAN10 and ROS on the road to rejuvenation. Nature cell biology, 19(9), 1012-1013.

Nikitina, T.V., & Lebedev, I.N. (2018). Regulation of karyotype stability in human induced pluripotent stem cells. Cytology , 60 (6), 403-416.

de Lima Camillo, L. P., & Quinlan, R. B. (2021). A ride through the epigenetic landscape: aging reversal by reprogramming. GeroScience, 1-23.

Xia, Y., Zhu, K., Irianto, J., Andrechak, J. C., Dooling, L. J., Pfeifer, C. R., & Discher, D. E. (2018). Live cell monitoring for factors affecting genome variation. bioRxiv, 508150.

Kosanke, M., Osetek, K., Haase, A., Wiehlmann, L., Davenport, C., Schwarzer, A., ... & Martin, U. (2021). Reprogramming enriches for somatic cell clones with small-scale mutations in cancer-associated genes. Molecular Therapy.

Ogawa, S., Yamada, M., Nakamura, A., Sugawara, T., Nakamura, A., Miyajima, S., ... & Hamatani, T. (2019). Zscan5b Deficiency Impairs DNA Damage Response and Causes Chromosomal Aberrations during Mitosis. Stem cell reports, 12(6), 1366-1379.

Xia, Y. (2019). Nuclear Envelope Rupture And Genomic Instability In Cancer (Doctoral dissertation, University of Pennsylvania).

Kantor, B., & Chiba-Falek, O. (2021). Lentiviral vectors as the delivery vehicles for transduction into iPSCs: shortcomings and benefits. In Methods in iPSC Technology (pp. 79-100). Academic Press.

Carrero, D., & LÃ³pez-OtÃn, C. (2018). The Relevance of Induced Pluripotent Stem Cells for the Study of Physiological and Premature Aging. In Stem Cell Genetics for Biomedical Research (pp. 311-334). Springer, Cham.

Giallongo, S., Rehakova, D., Raffaele, M., Lo Re, O., Koutna, I., & Vinciguerra, M. (2021). Redox and Epigenetics in Human Pluripotent Stem Cells Differentiation. Antioxidants & redox signaling, 34(4), 335-349.

Nikitina, T. V., Kashevarova, A. A., & Lebedev, I. N. (2019). Chromosomal Instability and Karyotype Correction in Human Induced Pluripotent Stem Cells. Russian Journal of Genetics, 55(10), 1183-1195.

Ogawa, S., Yamada, M., Nakamura, A., Sugawara, T., & Nakamura, A. Shoko Miyajima, 2 Yuichirou Harada, 2 Reina Ooka, Ryuichiro Okawa, Jun Miyauchi, 3 Hideki Tsumura, 4 Yasunori Yoshimura, Kenji Miyado, 2 Hidenori Akutsu, 2 Mamoru Tanaka, Akihiro Umezawa, 2 and Toshio Hamatani.

Wang, J., Liu, C., Chen, Y., & Wang, W. (2021). Taiji-reprogram: a framework to uncover cell-type specific regulators and predict cellular reprogramming cocktails. NAR genomics and bioinformatics, 3(4), lqab100.

Skamagki, M., Zhang, C., Liu, Z., Li, H., Zhao, R., & Kim, K. (2020). Reprogramming of Pluripotency-Specific microRNA Signatures Is Not Essential to Generate Inducible Pluripotent Stem Cells. Cellular reprogramming, 22(1), 1-2.

Nikitina, T.V., Kashevarova, A.A., & Lebedev, I.N. (2019). Chromosomal instability and karyotype correction in induced pluripotent human stem cells. Genetics , 55 (10), 1122-1136.

Iavniuk, A. A., Shevtsova, N. L., & Gudkov, D. I. (2020). Disorders of the initial ontogenesis of seed progeny of the common reed (Phragmites australis) from water bodies within the Chernobyl Exclusion Zone. Journal of Environmental Radioactivity, 218, 106256.

Kuswantoro, F., & Oktavia, G. A. E. (2019). Studi Tipe Perkecambahan Dan Pertumbuhan Anakan Pinanga arinasae Witono dan Euchresta horsfieldii (Lesch.) Benn. Untuk Mendukung Upaya Konservasinya. Buletin Kebun Raya, 22(2), 105-116.

Google Scholar citation report

Citations : 79

Abstracted/Indexed in

Open Access Journals

Journal of Cell and Developmental Biology : Citations & Metrics Report

BÃ¡rcena, C., & LÃ³pez-OtÃ­n, C. (2017). A fruitful liaison of ZSCAN10 and ROS on the road to rejuvenation. Nature cell biology, 19(9), 1012-1013.

Nikitina, T.V., & Lebedev, I.N. (2018). Regulation of karyotype stability in human induced pluripotent stem cells. Cytology , 60 (6), 403-416.

de Lima Camillo, L. P., & Quinlan, R. B. (2021). A ride through the epigenetic landscape: aging reversal by reprogramming. GeroScience, 1-23.

Xia, Y., Zhu, K., Irianto, J., Andrechak, J. C., Dooling, L. J., Pfeifer, C. R., & Discher, D. E. (2018). Live cell monitoring for factors affecting genome variation. bioRxiv, 508150.

Kosanke, M., Osetek, K., Haase, A., Wiehlmann, L., Davenport, C., Schwarzer, A., ... & Martin, U. (2021). Reprogramming enriches for somatic cell clones with small-scale mutations in cancer-associated genes. Molecular Therapy.

Ogawa, S., Yamada, M., Nakamura, A., Sugawara, T., Nakamura, A., Miyajima, S., ... & Hamatani, T. (2019). Zscan5b Deficiency Impairs DNA Damage Response and Causes Chromosomal Aberrations during Mitosis. Stem cell reports, 12(6), 1366-1379.

Xia, Y. (2019). Nuclear Envelope Rupture And Genomic Instability In Cancer (Doctoral dissertation, University of Pennsylvania).

Kantor, B., & Chiba-Falek, O. (2021). Lentiviral vectors as the delivery vehicles for transduction into iPSCs: shortcomings and benefits. In Methods in iPSC Technology (pp. 79-100). Academic Press.

Carrero, D., & LÃ³pez-OtÃ­n, C. (2018). The Relevance of Induced Pluripotent Stem Cells for the Study of Physiological and Premature Aging. In Stem Cell Genetics for Biomedical Research (pp. 311-334). Springer, Cham.

Giallongo, S., Rehakova, D., Raffaele, M., Lo Re, O., Koutna, I., & Vinciguerra, M. (2021). Redox and Epigenetics in Human Pluripotent Stem Cells Differentiation. Antioxidants & redox signaling, 34(4), 335-349.

Nikitina, T. V., Kashevarova, A. A., & Lebedev, I. N. (2019). Chromosomal Instability and Karyotype Correction in Human Induced Pluripotent Stem Cells. Russian Journal of Genetics, 55(10), 1183-1195.

Ogawa, S., Yamada, M., Nakamura, A., Sugawara, T., & Nakamura, A. Shoko Miyajima, 2 Yuichirou Harada, 2 Reina Ooka, Ryuichiro Okawa, Jun Miyauchi, 3 Hideki Tsumura, 4 Yasunori Yoshimura, Kenji Miyado, 2 Hidenori Akutsu, 2 Mamoru Tanaka, Akihiro Umezawa, 2 and Toshio Hamatani.

Wang, J., Liu, C., Chen, Y., & Wang, W. (2021). Taiji-reprogram: a framework to uncover cell-type specific regulators and predict cellular reprogramming cocktails. NAR genomics and bioinformatics, 3(4), lqab100.

Skamagki, M., Zhang, C., Liu, Z., Li, H., Zhao, R., & Kim, K. (2020). Reprogramming of Pluripotency-Specific microRNA Signatures Is Not Essential to Generate Inducible Pluripotent Stem Cells. Cellular reprogramming, 22(1), 1-2.

Nikitina, T.V., Kashevarova, A.A., & Lebedev, I.N. (2019). Chromosomal instability and karyotype correction in induced pluripotent human stem cells. Genetics , 55 (10), 1122-1136.

Iavniuk, A. A., Shevtsova, N. L., & Gudkov, D. I. (2020). Disorders of the initial ontogenesis of seed progeny of the common reed (Phragmites australis) from water bodies within the Chernobyl Exclusion Zone. Journal of Environmental Radioactivity, 218, 106256.

Kuswantoro, F., & Oktavia, G. A. E. (2019). Studi Tipe Perkecambahan Dan Pertumbuhan Anakan Pinanga arinasae Witono dan Euchresta horsfieldii (Lesch.) Benn. Untuk Mendukung Upaya Konservasinya. Buletin Kebun Raya, 22(2), 105-116.

Google Scholar citation report

Citations : 79

Abstracted/Indexed in

Open Access Journals

BÃ¡rcena, C., & LÃ³pez-OtÃn, C. (2017). A fruitful liaison of ZSCAN10 and ROS on the road to rejuvenation. Nature cell biology, 19(9), 1012-1013.

Carrero, D., & LÃ³pez-OtÃn, C. (2018). The Relevance of Induced Pluripotent Stem Cells for the Study of Physiological and Premature Aging. In Stem Cell Genetics for Biomedical Research (pp. 311-334). Springer, Cham.